SU729413A1 - Method of constructing pipeline in watered and deep-having grounds - Google Patents

Description

(54) METHOD OF CONSTRUCTION OF A PIPELINE IN WATERED AND LEADING GROUND

Claims (2)

The invention relates to the field of construction and can be used in the construction of trunk pipelines in flooded and heaving soils, as well as in all cases when it is necessary to tighten the extended body against the action of bending loads. There is a known method for constructing a pipeline in watered and heaving soils, in which, after sections of the trench and before laying the pipeline in it at the bottom of the trench, at certain distances, soil-cement arrays 1J are deepened into the bottom. However, the embedding of the pipeline created by these arrays does not allow a significant increase in the distance between them compared to the normative distances, since the pipeline in the spans between the arrays is partially protected from possible deflections under the influence of external forces only by embedding forces. In addition, the manufacture of arrays-seals time-consuming. The closest technical solution to the invention is a method of constructing a pipeline in flooded and heaving soils, which consists of its installation and insulation, trench passage, laying the pipeline into it, followed by fixing it on mechanically immersed anchors and backfilling 2. The technical solution lacked despite the simplicity of the anchors, limited in the choice of the distance between them, since the pipeline is not sufficiently protected from external bending forces - buoyancy water or soil stumps, especially if we consider that as a result of pipeline movements, its supports (submersible anchors) often cease to be seals. The aim of the invention is to reduce the number of anchors with the exception of the critical bending of the pipeline by the force of heaving of the soil or the buoyancy of water through its preliminary backward deflection. To do this, before laying the pipeline, firstly, the anchor zones and inter-anchor zones are alternated with gaps, along the edges of which the stops are fixed, then strings are placed between the stops in each zone, and the strings are placed in the anchor zones along the the lower generatrix of the pipeline, and in the inter-anchor zones - along the upper. In addition, the ratio of the length of the anchor zone to the length of the inter-anchor zone is 1: 2. The drawing shows a segment laid in the soil pipeline. In accordance with the pipeline construction method, the pipeline 1 is assembled in water-cut and heaving soils, it is insulated, the trench 2 is torn off, the pipeline is laid into it and then fixed on mechanically immersed anchors 3 by means of flexible connections 4 and it is poured. Before laying the pipeline, it is first alternately alternated alternately, with a gap A of zone B of anchors and inter-anchor zones B, at the boundaries of which, or more often, stops 5 are fastened by clamps or welding, and then there are strings between the stops in each zone B and B and 7, which push on stops. In this case, the strings 6 in the zones B of the anchors are positioned along the lower generator of the pipeline, and the strings in the inter-anchor zones B - along the upper. The ratio of the lengths of zones B and C is approximately 1: 2. As a result of this reinforcement with strings 6 and 7, each section of the pipeline acquires additional stiffness, which provides additional resistance to its elastic deflection under the action of the buoyancy force of water or the ground retaining force, which makes it possible to increase the distance between the anchors and consequently reduce their number. not so large as to exclude the possibility of its placement in trapeze 2 by elastic bending. Claim 1. Method for constructing a pipeline in flooded and heaving soils, consisting in its installation and insulation, fragment of a trench, laying in it a pipeline with subsequent fixing on mechanically submersible anchors and backfilling, characterized in that in order to reduce the number of anchors with the exception critical bending of the pipeline by the force of soil heaving or the buoyancy force of water through its preliminary backward deflection; before laying the pipeline on it, first measure it successively alternating with the gaps of the anchor zone and inter-anchor zones, on the boundaries of which the stops are strengthened, and then between the stops in each zone there are strings that pull on the stops, while the strings are placed in the anchor zones along the lower generatrix of the pipeline and in the inter-anchor zones along the upper. 2. A method according to claim 1, characterized in that the ratio of the length of the anchor zone to the length of the inter-ankeric zone is 1: 2. Sources of information taken into account during the examination 1. USSR author's certificate No. 605055, cl. F 16 L 1/00, 03/05/76. 2. Borodavkina P. P. The construction of trunk pipelines. M., Higher School, 1977, p. 199 (prototype).