SU909085A1 - Power transmission line mast - Google Patents

Description

(54) ELECTRICAL TRANSMISSION LINER

The invention relates to the construction, in particular to the supports of the high-voltage electrical transmission line, and can be used as an intermediate or corner support. Power transmission towers on guy cables, which are highly economical due to the introduction of high-strength materials, are known | 1 J. A transmission line support is known, which includes an inclined rack with traverses, supported by the guy cables and reinforced with a spindle-nut | .2 J. The support column has a slope in the direction of the main loads from the weight of the phases relative to the vertical axis of its foundation, due to which its center The tin is mixed in the same direction, which serves as a reason for the appearance of additional efforts on the weight of the rack itself in the legs of the support. In addition, the support beams, to which the phases are suspended, are rigidly attached to: the rack, as a result of which bending moments arise from the weight of the phases in the rack. Both of these factors lead to the appearance of large and uneven supports in the electric power poles, and consequently to a large consumption of materials for the pedestal. The purpose of the invention is to reduce the material capacity of the support and reduce the effort in the ends. This goal is achieved by the fact that the support of the power line, including the inclined rack with the sprengel, traverse, single strands, marks out V-sided straps, paired straps, wires attached to the traverse and the foundation for fixing the straps, provides an additional slider with rigid and flexible elements, and the traverse is made in the form of a dual-console element pivotally attached to the rack with the possibility of rotation and set at an angle to the vertical axis of the support, while the rack has an L-shape, and one of salts forms a rigid element of an additional sprengel, flexible

the elements of the additional sprengel are attached to the rigid element in the wires of the wire hanger, and one of the ends of the cables placed in the plane of the support, and the boys of the wires are attached to the opposite end of the traverse, the ary ends of which are attached to the lower ends of the L-shaped stand, moreover, the latter is tilted toward the other console.

FIG. 1 shows schematically the support, general view; in fig. 2 shows section A-A in FIG. one.

The support includes an L-shaped stand 1, a two-console traverse 2, a foundation 3, flexible elements in addition: Spindle No.4, a tip 5 of the stand, an end of the traverse 6, an extension 7, forming a sprint for an inclined stand, a foundation 8 for fastening the same, paired delays 9, joint 1О and wires 11,

To the inclined L-shaped rack 1. Supports with the help of the hinge 10, attached inclined uniform for all phases of the two-console traverse 2. The rack 1 is pivotally mounted on the foundations 3.

The dual con traverse 2 is supported at the attachment points of the phases 11 by flexible, elements that perform the role of sprengel for the traverse. The flexible elements in the form of cables are thrown over the ends of the 5 posts and the end of the double-console crosshead 6, after which they are separated. A part of them is fixed at the base of the stand, forming a cable-stayed Sprengel for an inclined stand 1, the Other shrouds are fixed in foundation 8, forming a system of fixture 9 holding the support in a predetermined position.

The rack 1 and the cantilever beam 2 can be made of metal, vura reinforced concrete.

The magnitude of the inverse with respect to the action of the main static load of the rack inclination is selected depending on the weight of the rack. in such a way that the weight of the rack compensates for the tension in the weights on the weight of the traverse and the phases of the transmission line, or, in other words, that the common center of gravity (rt) of the weight of the support and phases is on the minimum acceptable condition for the stability of the support standing c1 from the support hinges of the rack 1. This minimizes the forces in the supporting cables, and consequently, the forces in the elements of the opyr. In addition, the presence of additional sprengel, supporting each of the phases on the inclined traverse, minimizes effort in traverse and completely eliminate. work of traverse and stand for bending of the weight of the phases. The force control in the support-cable stayed system allows the design to be of equal strength and optimal in terms of material consumption.

Thus, when using the design of the proposed support, the material is saved and the load on the foundation of anchor fixing is reduced.

Claims (2)

1. Kryukov K. P., et al. Structures and mechanical design of power lines, L., Energie, 1979. p., 150-165 2. USSR author's certificate No. 483510, cl. E O4 H 12/00, 1975, (prototype).