RU2584764C2 - Method of laying underground main pipeline - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: invention relates to construction and can be used in construction of straight sections of underground main pipelines of various purposes. Method of laying underground main pipeline includes digging a trench, installation of a pipeline on mounting plates, placing it into trench and filling trench with soil. Prior to laying of pipeline, pipeline joints are sealed on both ends, pressure in pipeline is increased to excess, but less than operating pressure. Tail part of pipeline is shifted to side of trench, where it hangs under gravity, fixed by trench walls of transverse movement. During further displacement, self-laying of pipeline in trench takes place: tail part of pipeline is elastically lowered to trench bottom and at this moment a progressing wave is formed, which removes pipeline from mounting plates, and side component spatial bending shifts pipeline into trench. After filling of trench with soil pressure in pipeline is increased to test pressure.

EFFECT: technical result is faster construction.

1 cl

Description

The invention relates to construction and can be used in the construction of straight sections of underground trunk pipelines for various purposes.

There is a method of laying an underground pipeline (see Borodavkin P.P. and others. Construction of trunk pipelines. - M .: Nedra. 1987, p. 105), including a fragment of the trench, installation of the pipeline on the berm, laying it in the trench and filling it with soil .

The closest technical solution is the method of laying an underground trunk pipeline of large diameter (SU 1682705, F16L 1/028, publ. 07.10.1991, bull. No. 37), which consists in extracting the trench, installing the pipeline on a berm, laying it in the trench and filling it the ground, before laying, the initial section of the pipeline is bent elastically, its end is inserted between the walls of the trench and fixed, and the driver is given a driving impulse in the direction of the trench at a distance equal to 33-46 pipe diameters, while the length of the initial elastically bent the pipeline section is 109-127 of its diameters.

However, the laid pipeline has insufficient elasticity and, accordingly, low construction rates associated with the subsequent testing of the pipeline.

The objective of the invention is to increase the pace of construction.

The essence of the proposed technical solution lies in the fact that in the method of laying an underground trunk pipeline, which includes extracting a trench, installing the pipeline on a bed, laying it in a trench and backfilling it with soil, the joints are sealed before laying the pipeline - the pipe is welded from both ends, then the pressure is increased in the pipeline to excess, but less than the working one, then the tail of the pipeline is shifted towards the trench, where it hangs under the influence of gravity, being fixed by the walls of the trench from lateral displacement, with further shifting, the tail of the pipeline springingly drops to the bottom of the trench, and at this moment a traveling wave (tuber) is formed, which removes the pipeline from the beds, and the lateral component of the spatial bend shifts the pipeline into the trench, after filling the trench with soil, the pressure in the pipeline increases to the subject.

The technical result consists in the fact that when performing a certain sequence of actions: by shifting the tail of the pipeline into the trench, fixing the pipeline by the walls of the trench and further shifting, the complex elastic-spatial bending of the pipeline creates a traveling wave for self-laying it in the trench, which increases the pace of construction.

The method is as follows.

On a rectilinear section of a planned pipeline route, a section of a pipeline from factory insulation pipes is welded into a continuous thread, which is laid on pruning or earthen prisms. Then joints are sealed - the pipeline is welded from both ends and the pressure is increased to an excess, but less than the working one, which increases the elastic state of the pipeline thread.

Along the future pipeline, a trench breaks into which a straight section of the pipeline will be laid, which, as a rule, has a considerable length.

At a distance of 50-70 m from the beginning of the pipeline thread, depending on the diameter of the pipe, its tail section is shifted towards the trench, where it hangs under the influence of gravity, being fixed by its walls from lateral movement.

The pipeline is shifted by any pushing mechanism, for example, a bulldozer, the working body of which is lined with shock-absorbing material.

With further shifting, the tail of the pipeline springingly drops to the bottom of the trench, and at this moment a traveling wave (tuber) is formed, which removes the pipeline from the beds, and the lateral component of the spatial bend shifts the pipeline horizontally and the pipeline drops to the bottom of the trench.

After laying the pipeline, they fill up the trench and then increase the pressure in the pipeline to the test person, and test the pipeline.

Considering the pipeline as an elastic system with external forces acting on it, it is obvious that the potential energy of the elastic spatial bending tends to its equilibrium state, goes into the kinetic state, laying the pipeline in a trench, removing stress from it, i.e. self-laying occurs.

The initial impulse for the shift of the pipeline into the trench and the resulting spatial bending allow laying the thread of the pipeline 10-20 km or more in length. And taking into account the filling of the pipeline and bringing the pressure to the test person and the test, the pace of construction increases sharply.

Claims (1)

A method of laying an underground main pipeline, including extracting a trench, installing the pipeline on a bed, laying it in a trench and filling it with soil, characterized in that the joints are sealed before laying the pipeline - the pipe is welded from both ends, then the pressure in the pipeline is increased to excess, but less than the worker, then the tail of the pipeline is shifted towards the trench, where it hangs under the influence of gravity, being fixed by the walls of the trench from lateral movement, with further shift The tail part of the pipeline springy drops to the bottom of the trench and at this moment a traveling wave is formed, removing the pipeline from the stubs, and the lateral component of the spatial bend shifts the pipeline into the trench, after filling the trench with soil, the pressure in the pipeline is increased to the test person.