SU746068A1 - Power transmission line intermediate support - Google Patents

Description

(54) INTERMEDIATE ELECTRON1 LINE OPERATION

Claims (2)

; I The invention relates to the field of construction of power supply systems and can be used in the design of an. Kernel lightweight double-sided towers of power lines with large sections of wires. And also in open flexible and tubular conductors with cable suspension phases. Intermediate supports are known with different systems of braces or 1J struts. The disadvantages of such supports are a significant number of pulls in double-chain supports, especially at high traction in phases (up to idOOO kgf), and a large area is needed to fix the joints. The closest technical solution is a power line support, comprising a lower U-shaped frame with straps and an additional U-shaped frame C2j hinged to it. A disadvantage of the supports of such a structure is the considerable steepness of the beam and the bending moments that occur in the supports during unilateral tension in the event of a break in one of the phases in the emergency mode. As a result, such supports have increased material consumption. The purpose of the invention is to reduce the material consumption of the support. This goal is achieved by the fact that in the intermediate support of the transmission line, including the lower U-shaped frame with straps and the additional U-shaped frame pivotally attached to it, the additional U-shaped frame is installed with the possibility of its rotation from the plane of the lower U-shaped frame. With this support device, one-sided tension during the breakdown of one of the wires of the upper phase in emergency mode is balanced by the redistribution of EFFORTS in the intact wires of the upper phase of the damaged and adjacent spans and is perceived in the final -7 count by end supports. The lateral bending and torsion of the support are significantly reduced. Only the upper traverse is subjected to bending when the upper phase wire is broken, which, due to the hinge clamping of the upper part of the support, deviates with the latter towards the action of a single load. At the same time, the length of the damaged span will increase, and the number of the adjacent span will be reduced by the amount of deviation of the frame from the initial placement. Since the lengths of the wires of the upper phases are almost unchanged, the booms of the wires in the damaged and adjacent spans also increase or decrease accordingly. Since the magnitude of the gyro is tonal, the stitching of the viscous filament depends on the boom of its sagging and the length of the span, reducing the boom of sagging the wires of the upper phases in the damaged span while simultaneously increasing its length increases the stresses in the remaining upper phases the forces are correspondingly reduced. The position of the crosshead of the upper part of the support is stabilized in the position when the sum of the moments of the acting forces relative to the support hinge 0 of the damaged and adjacent span is equal to zero. Thus, when the upper phase wire is broken, the lower part of the support is not subject to bending and torsion and therefore the calculated forces in it significantly decrease, as a result of which its material consumption (and hence the support as a whole) is significantly reduced. FIG. 1 shows the general id of the support; in fig. 2 is a view A-A in FIG. 1. b. -: ... - Intermediate support of power lines 1 and made integral in height. The lower part of the support is compacted in the form of a P-shaped frame 1 fixed by straps. 2. To bolt 3 wires 4 84 (conductors) of the lower phases of both circuits are attached. The upper part of the support is made in the form of a Prana frame, the pillars 5 of which are hingedly adjacent to the lower part of the support, the axis of the articulated joint being horizontal and P. a is located in the plane of the support, and at the top of the stand are combined rigid cable. version 6, which carries the wires 7 of the upper phases of both circuits. When one of the wires 7 breaks under the action of unbalanced traction, the cross bar 6, due to the hinged abutment of the upper part of the support, deviates with the latter towards the action of a unilateral load. Due to a significant reduction in bending and torsional moments acting on the lower part of the support, it is possible to reduce its material consumption, according to preliminary estimates, compared to the use of normal and elevated anchor supports from 1O to 25%. Formula of the Invention Intermediate support of the power line, including the lower U-shaped frame with straps and an additional U-shaped frame hinged to it, in contrast to the fact that, in order to reduce the material intensity, the additional U-shaped frame of the mouth ovlena vozmoishostyu with its plane of rotation of the lower U-shaped frame. Sources of information taken into account in the examination 1, USSR Author's Certificate No. 450277, cl. Е О4 Н 12 / ОО, 1973. 2, Kuindzhi B, B, and others. Flexible conductors in power supply systems of industrial enterprises, M, Energiya, 1974G, 4O,