SU853071A1 - Crosspiece - Google Patents

Description

The invention relates to construction and can be used on power lines, open switchgear substations and contact network of railways. 5

Known traverse support on guy rods, made in the form of cantilever beams reinforced with flexible rods located in a plane common to them and with cable ropes. The design of the traverse reinforced with traction gives a reduction in metal consumption compared to traverses made in the form of tetrahedral or trihedral spatial farms [1].

However, such a traverse with rods cannot be used in supports without consoles and wire ropes, since the absence of the unloading effect of the consoles and the tie rod mounting points raised above the traverse deprives the support of the above advantage.

A beam is known that contains four belts, three of which are located at the vertices of the polygon of the cross section of the beam, and the belts are connected between 25 diaphragms located at the places of application of the load [2].

This traverse is a spatial tetrahedral lattice structure, articulated at its ends on racks and transferring loads from them from the tension and own weight of the wires, as well as wind pressure on the wires and the traverse.

However, these lattice traverses are metal-intensive.

A metal truss is also known, including flexible curved belts, cross struts and a rigid element mounted inside the truss connecting the ends of the truss in which the belts are placed at an angle of 120 ° [3].

The disadvantage of this truss is that the struts acting as diaphragms do not form a sufficiently rigid system in the transverse direction.

Closest to the invention, the technical solution is truss truss, including curved belts, struts and a rigid element that combines the ends of the belts. The farm is equipped with additional puffs that combine the ends of the spacers in cross section, forming a closed loop [4].

The disadvantage of this solution is the lack of rigidity of the curved belts.

The purpose of the invention is the reduction of material consumption and increase the strength of the beam in the horizontal plane.

This goal is achieved by the fact that the traverse, including curvilinear belts, diaphragms connecting the belts, and rigid elements combining the ends of the belts and diaphragms, is equipped with additional diaphragms, each belt is made in the form of an arched element, and the rigid element is in the form of a tightening, this additional diaphragm attached to the midpoints of the sides of the main diaphragms with the formation of a closed triangle.

In FIG. Fig. 1 shows a traverse, in plan 1; in FIG. 2 - the same side view; in FIG. 3 - same, cross section.

The traverse includes curved belts 1-3, made in the form of arches, a rigid element 4 in the form of a puff, diaphragm 5 and additional diaphragm 6.

The design of the crosshead works as follows.

Unilateral or bilateral loads from the pulling of wires, the net weight of wires and garlands or cables are applied to the traverse through the diaphragms 5 and 6 at the point of intersection with element 4. The latter, being rigidly connected with arched belts 1-3, transfer the load to them in such a way that each arch is loaded with force, the direction of which coincides with the plane of a particular arch.

All arches for any combination of loads are compressed. The thrust force arising in the traverse from any of the arches is perceived by one common rigid element 4.

The use of three arches and puffs as traverses creates an economic effect, expressed in reducing the consumption of materials on the traverse.

The reduction is achieved due to the lack of a diagonal lattice and the performance of a single tightening for all the arches of the beam.

The reduction in steel consumption reaches 20-25%.

Claims (1)

Claim Traverse, including curved belts, diaphragms connecting the belts, and rigid elements combining the ends of the belts and diaphragms, characterized in that, in order to reduce the material consumption and increase the strength of the traverse in the horizontal plane, the traverse is equipped with additional diaphragms, and each belt is made in the form of an arched element, and the rigid element in the form of a puff, with additional diaphragms attached to the midpoints of the sides of the main diaphragms with the formation of a closed triangle.