RU2030672C1 - Method of the underground pipe laying on the sections of soft-carrying grounds - Google Patents

Abstract

FIELD: pipe construction. SUBSTANCE: on the section of soft-carrying grounds the pipeline is laid with a flexible curve in the horizontal and vertical planes with the deepening of 0.3-0.5 m relative to the marks of the pipe laying on the adjacent sections of carrying grounds. EFFECT: facilitated manufacture. 2 cl, 4 dwg

Description

 The invention relates to the construction and can be used when laying pipelines on sections of soils with poor bearing ability. During the construction of the gas pipeline, areas with weakly bearing soils, such as peat, require their clear identification. Dangerous movements of pipelines are especially noticeable on weakly bearing soils due to their low ability to resist shear.

 A known method of laying an underground pipeline, which consists in extracting a trench with a bend in the horizontal and vertical planes, laying in the trench of the pipeline with its subsequent fixing and filling.

 The disadvantage of this method is that it ensures the stability of the position of only the pipeline with negative buoyancy in areas of sharp changes in the engineering and geological properties of soils.

 In the case of the wide distribution of permafrost peat bogs with a seasonally thawed layer, subject to the thermokarst process, this method is simply not applicable.

 The aim of the invention is to increase the operational reliability, sustainability and environmental safety of the pipeline laid in weakly bearing soils (peat, loess).

 In FIG. 1 shows a pipeline laid in a section of weakly bearing soils, top view; figure 2 is a section aa in figure 1; figure 3 is a section bB in figure 1; figure 4 - section bb in figure 1.

 The method is as follows.

 In sections 1 with mineral soil a fragment of the trench 2 is conducted in the usual way (figure 3), and the pipeline 3 is laid at the bottom of the trench 2 in its center. In sections 4 with weak bearing soil, a fragment of the trench 2 is carried out along the curve of elastic bending intended for laying the pipeline 3 (Fig. 4) with a depth of 0.3-0.5 m relative to the depth of the trench 2 in sections 1 with mineral soil and the pipeline 3 stack to the external along the radius of the bend wall of the trench 2.

 The lashes are joined by welding, the pipeline is fixed at the bottom of the trench by known methods (anchors, weighting materials) and the trench is poured with excavated compacted soil. If necessary, create a roller from the soil above the trench.

 As a rule, in the permafrost zone, weakly bearing soils (peat bogs) are confined to local relief depressions, in which atmospheric precipitation accumulates, and temporary and permanent watercourses are formed. These watercourses quickly destroy the pipe-loading roller.

 In such areas, it is recommended not to soil the pipe, but to level the surface of the soil above the pipe to its original natural level. A thermal shield is laid on the leveled surface of the soil. The missing mass of soil loading in this case is compensated by increasing the depth of the trench.

 A thermal shield (organic or polymer) is necessary to prevent the melting of powerful ice inclusions that are often found in permafrost peat bogs.

 Such sections can serve as compensators for the pipeline.

Claims (3)

 1. THE METHOD OF LAYING THE UNDERGROUND PIPELINE AT DEPARTMENT SOIL SITES, which consists in extracting a trench with a bend in horizontal and vertical planes, laying in a pipeline trench with its elastic bend, fixing the pipeline and backfilling the trench with a difference of 0, which 3 - 0.5 m of its depth relative to the depth of the trench on adjacent sections of bearing soils, lay the pipeline close to the external wall of the trench curved in plan, and the trench is torn off along the curve of elastic bending and the pipeline, and the backfill soil is compacted.  2. The method according to claim 1, characterized in that in areas of weakly bearing soils in the permafrost zone, the surface of the backfill soil is leveled to its original natural level.  3. The method according to claims 1 and 2, characterized in that a heat shield is placed on the leveled soil surface of the backfill.

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