RU2090795C1 - Method laying underground pipe line - Google Patents

Abstract

FIELD: erection of underground pipe lines at slopes of route. SUBSTANCE: in laying the underground pipe line, longitudinal channels are dug on bottom of trench and are covered with watertight sheet material over perimeter, then channels are filled with filtering material and trench is covered with watertight mat together with pipe line laid in it, wells are filled and backfill is covered with side parts of mat. EFFECT: enhanced reliability. 5 cl, 1 dwg

Description

 The invention relates to the field of construction of trunk pipelines, mainly in the zone of distribution of highly benthic permafrost soils on the slopes of the route.

 A known method of laying a pipeline in flooded soils, which consists in extracting a trench, laying on its bottom the pipeline and drainage pipes on its sides (A.S. N 1770656, class F 16 L 1/02, publ. 23.10.92).

 The disadvantages of this method as. N 1770656 are as follows. In icy soils during thawing, the drain passes not only inside the drainage pipes, but also outside them, for example, along the bottom of the trench, which will lead to intense erosion, uneven precipitation of the pipeline and the appearance of bending moments in it, which reduce the reliability of the pipeline during operation. In addition, in the event of a failure of the drainage system and unsecured ballasting, the pipeline may float.

 As a prototype, a method of laying an underground pipeline was selected, in accordance with which a trench was torn, a pipeline was laid in it, partially filled with ballasting soil (A.S. N 1404737, F 16 L 1/02, publ. 7.10.89). Then the partial backfill and the walls of the trench are covered with a flexible cloth with the formation of pockets, backfill is made, the edges of the flexible cloth are pulled together and connected with a lock, after which the trench is finally covered.

 The disadvantages of the method as. N 1404737 are as follows.

 Longitudinal gutters erode the bottom of the trench, and the ballasting soil is carried away and mixed with the surrounding soil, so it loses its filtering properties. In this regard, excessive flooding of the trench and the emergence of the pipeline is possible. In addition, the side pockets do not reach the bottom of the trench, which reduces the ballasting effect of the soil in the cavity of the flexible panels. Further, the flooding of the trench increases the effect of thawing and loss of bearing capacity of the soil surrounding the trench, and this leads to a decrease in the stability of the pipeline body in the soil due to the longitudinal force and buoyancy of Archimedes.

 The objective of the invention is to increase the longitudinal stability of the pipeline on slopes when exposed to longitudinal and transverse sip.

 The problem is solved in that in the method of laying an underground pipeline, including tearing off a trench, laying a pipeline in it, filling it with filter material, covering the walls of the trench and the pipeline with a flexible permeable carpet with the formation of side pockets, filling the formed cavity with soil removed from the trench, tightening and joining the longitudinal edges of the flexible carpets, the final filling of the trench, while before laying the pipeline into the trench at its bottom in the longitudinal direction tear off the channels, block them along along the perimeter with waterproof sheet material, and filling with filtering material is carried out in two stages, longitudinal channels are filled up before laying the pipeline, and after covering the walls of the trench and the pipeline with a flexible permeable carpet, the cavities of the side pockets are covered.

 The problem is solved in that the height of the backfill of the filter material in the side pockets is chosen not lower than the level of the upper generatrix of the pipeline, and the volume of backfill is determined based on the provision of the ballasting ability of the flooded soil enclosed in a closed cavity of a flexible carpet.

 The problem is solved in that the channels are covered with coarse rocks, for example, gravel, and pockets with coarse-grained soil, for example, sand.

 The problem is solved in that the cross-sectional area of the channels is selected from the condition of providing a longitudinal drain during thawing of the soil.

 The problem is solved in that woven and non-woven geotextile materials are used as permeable flexible carpets, and a rolled plastic film is used as a waterproof sheet material.

The following features of the invention, having novelty, are not known to the applicant from patent and technical information:
culverts are made at the bottom of the trench, protected from erosion by waterproof sheet material,
backfill of the filter material is carried out in two stages, first into the channels, then into the side pockets, and the filter material itself is represented by two virs for vertical filtration and a longitudinal drain.

 The above significant distinguishing features suggest that the claimed invention is new.

 The claimed invention can be successfully applied in the construction of trunk pipelines, mainly in the zone of distribution of high-ice, permafrost soils on the slopes of the terrain.

 The proposed method improves the longitudinal stability of the pipe. In icy soils, it reduces the erosion intensity, protects the pipeline from ascent, thereby increasing the reliability of the pipeline during operation.

 The above allows us to conclude that the claimed invention meets the criterion of "industrial applicability".

 As for the criterion of "inventive step", here we can conclude that the claimed invention meets it, since the essential distinguishing features, together with the known ones, make it possible to achieve the task in an unconventional way.

 The essence of the method is illustrated in the drawing.

 The drawing shows a section of the trench after construction in the winter. The method is carried out in the following order.

 In the frozen soil along the slope, trenches 1 are torn, then channels 2 are cut along its corners in the longitudinal direction in the longitudinal direction, they are blocked along the perimeter with waterproof sheet material 3. Then the channels are covered with filter material 4. The pipe 5 is laid at the bottom of the trench, and it is covered with walls trenches with waterproof flexible carpet 6 with the formation of side pockets 7. Pockets 7 are filled with imported filtering and at the same time ballasting material 8 to a level not lower than the upper generatrix of the pipeline, then into the cavity of the carpet 9 covered with soil excavated from the trench. After that, the longitudinal edges of the carpet 6 are wrapped and interconnected. The final operation of the method is filling the trench with the remaining soil 10 from the dump.

 The invention works as follows.

 In summer, during the period of intense melting of snow and soil, moisture moans downward, which accelerates the thawing of the lower layers of the soil mass 10 and 9. The resulting soil suspension is filtered through spoil 8 and then through a permeable carpet 6 in the lower part of pockets 7. As a result of vertical filtration, moisture enters channels 2 along the entire length of the trench and flows along them along the slope of the pipeline.

 The effect of the invention is as follows. Sheet material 3 eliminates the mechanical contact of moving water with frozen continental soil, preventing its erosion. Channels 2 are placed below the level of the bottom of the trench, which limits its thawing and keeps the base of the pipeline in a frozen state. With partial thawing of the soil around the channels 2, coarse-grained rock 4 compacts this zone, and the lower surfaces of the pockets 7 are shifted down due to the weight of the material 8, pulling the carpets 6, thereby increasing the pressure of the pipeline to the bottom of the trench. As a result of this, as well as intensive drainage of water from the trench, accompanied by compaction of the backfill soil, the longitudinal stability of the pipeline, the ballasting effect of the backfill and the reliability of the laying as a whole increase.

 Example.

 In the area of the Yamal Peninsula, it is necessary to continue the gas pipeline with a diameter of 1420 mm along the slope of the route to the water barrier. The slope is 200 m long. The angle from the pipeline to the horizon is 5 degrees. The soil is a dusty sandy loam with a content of 30% ice. It is prone to leaching and erosion in case of integrity violation during the construction period.

 The trench is developed by a bucket wheel excavator. The depth of the trench is 2.5 m, the width along the bottom is 2, 4 m. Then, with the help of a disk cutter, the bar machine cuts longitudinal Canada at the bottom of the trench, 0.5 m deep, 0.4 m wide. After that, the channels are lined with plastic wrap around the perimeter, rolling rolls along the trench along its bottom. Canada is covered with gravel with a bucket excavator.

 Pipelayers lay the pipeline at the bottom of the trench, manually block it, the walls and burs of the trench with geotextile material in the form of separate panels 15 m wide and 20 m long, only 10 pieces. In the process of layout, side pockets are formed, they are covered with imported sand with a bucket excavator to the top of the pipe or more. The required amount of local soil, taken out of the trench, is poured onto the sandy soil, the longitudinal edges of the panels are wrapped and connected. Then, with a bulldozer, final filling with local soil is carried out and an outer roller is formed.

 The amount of local soil of sandy loam and filtering soil-sand, poured into the cavity of flexible panels, is calculated by the ballasting ability in the flooded state in accordance with VSN 007-88.

 The implementation of this method in comparison with the prototype does not require scarce expensive materials, protects the slope from leaching and soil erosion of a disturbed structure by timely drainage of groundwater and compaction of backfill soil, increases the longitudinal stability of the pipeline, ensures environmental clean construction.

Claims (5)

 1. A method of laying an underground pipeline, including extracting a trench, laying a pipeline in it, backfilling with filter material, overlapping the walls of the trench and the pipeline with a flexible permeable carpet with the formation of side pockets, filling the formed cavity with soil removed from the trench, pulling and joining the longitudinal edges of the flexible carpets, the final filling of the trench, characterized in that before laying the pipeline into the trench at its bottom in the longitudinal direction, the channels are torn off, they are waterproofed along the perimeter m sheeting and filling the filter material is carried out in two stages before laying the pipeline poured longitudinal channels, and after overlapping flexible carpet permeable walls of the trench and pipeline is filled cavity side pockets.  2. The method according to claim 1, characterized in that the height of the backfill of the filter material in the side pockets is chosen not lower than the level of the upper generatrix of the pipeline, and the amount of backfill is determined based on the provision of the ballasting ability of the flooded soil enclosed in a closed cavity of a flexible carpet.  3. The method according to claim 1, characterized in that the channels are covered with coarse rocks, such as rubble, and pockets with coarse soil, such as sand.  4. The method according to claim 1 or 3, characterized in that the cross-sectional area of the channels is selected from the conditions for providing a longitudinal drain when thawing the soil.  5. The method according to claim 1, characterized in that woven and non-woven geotextile materials are used as permeable flexible carpets, and a rolled polyethylene film is used as a waterproof sheet material.