SU1470838A1 - Multispan guyrope pipeline overpass - Google Patents

Abstract

The invention relates to bridge construction and can be used in the construction of cable-stayed pipelines. The aim of the invention is to reduce material consumption and increase reliability. The pipeline junction includes shore supports 1, intermediate supports in the form of pylons 2 with upper support parts 3 in the form of rollers for supporting on each pylon 2 pairs of cables 4 and 5 and middle hinged and fixed support parts 6 for supporting pipeline 7 on pylons 2. In the middle of each span of the pipeline 7, there are compensators 8, to the left and right of which, on the pipeline 7, retaining rings are fixed, to which the cables 5 and 4 are attached. The pipeline 7 is made of a polymeric material with a coefficient of thermal expansion in the order of more than the steel from which cables 4 and 5 are made. One ends of each pair of cables 4 and 5 in one span are fixed to pipeline 7 in the area of the compensator 8 to the left and right of it, and the other ends of the same pair of cables 4 and 5 attached to the left and right of the compensator 8 in the adjacent span. 2 Il.

Description

The invention relates to bridge construction and can be used in the construction of cable-stayed pipelines.

The purpose of the invention is to reduce material consumption and increase reliability.

Figure 1 shows the facade of a multi-span cable-stayed pipeline junction; in fig. 2 — node I in FIG. 1 The multi-span cable-stayed pipeline junction includes shore supports 1, intermediate supports in the form of pylons 2 with upper support parts 3 in the form of rollers for supporting Kaid on pylon 2 pairs of pairs 4 and 5 and middle joint-fixed supports. Slip parts 6 for supporting the pipeline 7 onto the pylons 2. In the middle of each span of the pipeline 7 there are compensators 8, to the left and right of which, on the pipeline 7, retaining rings 9 are fixed, to which the cables 4 and 5 are attached. having to The temperature expansion coefficient is an order of magnitude higher than that of the steel from which cables 4 and 5 are made. One ends of each pair of cables 4 and 5 in one span are fixed to the pipeline - 7 in the zone of the compensator 8 to the left and right of it, and the other ends the same pair of cables 4 and 5 are attached to the left and right of the compensator 8 in the adjacent run. When the temperature rises compared with the closing temperature, the length of the polymer pipe 7 between the compensators 8 is increased — with a length that is much larger than guys 4 and 5, but the fact that each van a. 4 and 5 is attached to the length of the pipeline: 7 between

by compensators 8, the distance between the suspension points of each cable 4 and 5 does not increase, but each cable 4 and 5 at the top of pylon 2 moves along the rollers of the upper support parts 3. As the temperature decreases compared to the closing temperature,

movement of the guys 4 and 5 in the opposite direction.

These features of fixing the cables 4 and 5 on the pipeline 7 and resting them on the top of the pylon 2 can dramatically reduce the temperature

system voltages and effectively apply the invention in cable-stayed pipe bridge structures made of materials with sharply different thermal expansion coefficients.

Claims (1)

Invention Formula Multi-span pipeline crossing including piping, compensators, cables, pylons with upper pylons and middle piping, support parts, shore supports, which are distinguished by the fact that, in order to reduce material consumption and increase reliability, the upper support parts are made in the form of rollers, and the middle the supporting parts are hingedly fixed, with the compensators located in the middle of each span, and the shrouds on the pylons are in pairs, with one ends of each pair of guys in one the span is fixed to the pipeline in the zone of the compensator to the left and right of it, and the other ends of the same pair of cables are fixed to the right and left of the compensator in neighboring span.