SU935591A1 - Intermediate tower of power transmission line - Google Patents

Description

(54) INTERMEDIATE SUPPORT OF ELECTRICAL TRANSMISSION LINES

Claims (2)

The invention relates to the construction of overhead transmission lines of predominantly high and superhigh voltage exposed to significant wind nooks. A transmission line support is known, including a foundation and a stand positioned at an angle to the basement plane, while the support can be equipped with counter weights suspended from it lj . However, the support leg cannot compensate for bending moments acting from the wind changing its direction, which causes large material costs for the manufacture of the support. The closest to the technical essence of the present invention is an intermediate support of the power line, including a rack, a traverse attached to it, on which wires of the phases are fastened with a cable and attached to the ground anchors and connected to the traverse C2. However, under the action of wind loads on the wires in the support there are significant bending moments, which leads to excessive material consumption. The purpose of the invention is to reduce material consumption by reducing the horizontal load on the support from the effect of wind on the wires. This is achieved by the fact that in the intermediate support of the electrotransmission line, including a rack, a traverse attached to it, on which the wires of the phases are fixed with the help of suspensions, and straps attached to the ground anchors and connected to the traverse, at least two The cables are connected to the phases at the points of their attachment to the suspensions. FIG. 1 schematically shows the support, general view (only the lower traverses are shown); in fig. 2 - the same, when located 1M and at the angle of rotation; in fig. 3 - the same, when located at the angle of rotation and attachment of each phase to two strands; in fig. k - the same, when used on a single-circuit line with a horizontal phase; in fig. 5 is a plan view of the support in FIG. BUT; in fig. 6 - support when performing its portal with the arrangement of phases in concentric circles; in fig. 7 scheme of the support. The power line support includes a rack 1, a yoke 2 attached to it, on which the wires of the phases are strengthened with the help of suspensions 3 and clamps H, straps 5, fixed to ground anchors 6. At least two straps are attached to the phases in their places fastenings to suspensions 3 through insulating elements made, for example, from heavy insulators 7. Suspension brackets 3 can also be made from flexible insulators. Adjacent horizontal phases are interconnected by an interphase delay 8 through insulating elements., For example, from a wire of insulators 9 Interphase delay 8 is freely passed through the body of the heel 1. When positioning a different op, on the straight part of the route, the length of the interphase delay 8 and the same 5, as well as their tension, is chosen so that the suspensions 3 occupy a vertical position in the absence of wind. In this case, the tension of the delay 5 must be several orders of magnitude less than the allowable tension, which makes it possible, due to the creation of a delay of the delay 5, to have the possibility of a limited displacement of the phases in the horizontal direction under wind loads. When the intermediate support is located at the angle of rotation of the transmission line, the location of the tensioner 5 in space and their tension can be chosen so that the suspensions 3 occupy an inclined position. In this case, the horizontal load from the tension of the wires located at an angle is perceived by the design of the support. Or, each phase can be attached to two delays 5, which makes it possible to avoid the occurrence of bending moments in a standing bearing. Insulating elements can be made of insulating cables 10, for example J made of fiberglass, while the phase delay 8 can be made of one insulating cable 1 1, which, in order to avoid damage to the body of the pole and shorting part of the insulating surface, can be located slope to the axis of the line. In this case, when the suspension 3 is moved along the route axis when a difference in stresses in the wires of adjacent spans occurs, the insulating cable 11 does not touch: the rack 1 of the support. Under heavy loads arising in windings 5 from wind loads, the ground anchors can be made of recessed anchor plates 12. When the support is located on high-capacity lines, for example, with a concentric phase arrangement to the suspension 3, the interphase spacer is reinforced for example, from ring beams 13 and wire of insulators I, and straps 5 attached to the interphase struts. When performing the support portal delay 5 can be strengthened to the foundations of the support. The operation of the proposed device is carried out as follows. In the absence of wind, all elements of the support occupy the position shown by solid lines, while the support perceives only relatively small vertical loads from a very weak tension of pull 5. At the appearance of wind directed, for example, perpendicular to the axis of the line, due to its pressure on the wires and the supporting suspensions they deviate, but the magnitude of this deviation is limited for phases that pass from the leeward side, by interphase delay 8, and for phases. Passing from the side of the wind - by derailing , and almost all horizontal force is perceived by pulling. 5 When the wind ceases, all elements of the device return to their original position. The invention makes it possible to reduce the material consumption of the support due to the reduction of the horizontal wind loads transmitted to the support from the effect of the wind on the wires. Claims of the Invention: An intermediate support of an electric transmission line, including a rack, a traverse attached to it, on which wires of the phases are fixed by means of a suspension, and straps attached to ground anchors and connected to the tra :: / 1 "version, differing By the fact that, in order to reduce the material consumption by reducing the horizontal load on the support from the effect of wind on the wires, at least two strands are attached to the phases at the points of their attachment to the suspensions. Sources of information accepted by Bo during the examination 1. USSR author's certificate No. 87229, cl. E Oft H 12/00, 1972. 2. USSR author's certificate N "81686, cl. EH 12/08, 1973 (prototype). 1, 12 L / t.tf