RU2230966C1 - Pipeline trenchless replacement method - Google Patents

Abstract

FIELD: construction; replacement of underground pipelines of different application.

SUBSTANCE: according to proposed method, new pipeline is pulled in place of cold pipeline to be replaced through flexible corrugated heat-insulated hose. Hot air is delivered between heat-insulated hose and new pipeline to heat it to temperature not higher than temperature of beginning of plastic deformation of material of new pipeline. If frozen earth is found around old pipeline, heated air is delivered into old pipeline to defrost earth completely.

EFFECT: improved efficiency of pipe laying.

1 dwg

Description

The invention relates to construction production and can be used for trenchless replacement of old underground pipelines for various purposes.

A known method of trenchless laying or replacing a pipeline [1], including the formation of a working and auxiliary pits, the formation of a well between them, drawing a pipeline into it. In this case, the formation of the well is carried out by puncture or by removing the replaced pipeline by stepwise advancement of the rod with the working head, and pulling the new pipeline into the well by the return stroke of the rod by means of the pulling head.

The known method of trenchless replacement of pipelines [2], which is closest to the proposed technical solution, is known, which includes the formation of an assembly well, the removal of an old pipeline, the ramming of its fragments into the ground, and the tightening of a new pipeline mounted on the surface to the entire length of a previously completed mounting well.

The disadvantages of the above methods are the impossibility of trenchless replacement of pipelines under adverse weather conditions (precipitation and low outside temperature) and the presence of frozen soils in the pipeline passage zone, since in this case it is highly likely to receive a poor-quality welded joint of new pipes and it is impossible to press fragments of an old pipe being destroyed into frozen ground due to its incompressibility.

The objective of the invention is to provide the possibility of high-quality work on trenchless replacement of pipelines at low outdoor temperatures, the presence of precipitation and frozen soil in the zone of passage of the pipeline.

The problem is solved in that in the method of trenchless replacement of pipelines, including the removal of the old pipeline and tightening through the previously completed installation well of the new pipeline, according to the invention, the new pipeline is pulled into the place of the old pipeline to be removed through the flexible corrugated heat-insulating sleeve with simultaneous supply between the heat-insulating sleeve sleeve and a new pipeline of hot air for heating the new pipeline to a temperature not higher than the temperature rounds of the beginning of plastic deformation of its material, and if there is frozen soil around the old pipeline, heated air is fed into the old pipeline before it is eliminated until the soil is completely thawed.

The advantage of the proposed method is that the heating of the new polymer pipeline with hot air and the protection of its insulating sleeve provides the flexibility of the new pipeline and the possibility of its supply to the old pipeline from the surface at low outdoor temperatures. The supply of heated air to the old pipeline, in the presence of frozen soil around it, thaws it and allows the debris of the destroyed old pipeline to be pressed into the thawed soil. The use of a corrugated sleeve provides its flexibility and greater heat-insulating ability due to a decrease in the contact area of the sleeve with the walls of the installation well and faster heating of the new pipeline. The hot air supply of the invention proposed in the flexible hose between it and the new pipeline makes it possible to continue heating without interruptions during the welding period, eliminates the repeated connections and disconnections of the heat generator, and increases the flexibility of the new pipeline with incomplete heating along the thickness of its walls.

The drawing shows a flow chart of the implementation of the method of trenchless replacement of pipelines.

Installation for implementing the proposed method of replacing the old pipeline 1 with a new pipeline 2 includes a working body 3 (pneumatic punch), a power device consisting of a winch 4, a cable 5 and compressor 6, a device for butt connection of new pipes (welding machine), consisting of a two-sided heating element 7 for contact heating of the ends of the mounted new pipeline 2 and the guide clip 8 for connecting the ends of the pipes after melting. The installation is equipped with a flexible corrugated heat-insulating sleeve 11 passed through the casing 9 of the mounting well 10, one end of which is located in the inspection well 12, and the other through the flange 13 with an opening is connected to the heating element 14 and through the flexible pipe 15 to the heat generator 16. Moreover, the ends of the sleeve 11 are elastic ring 17 is hermetically and slidably pressed against a new pipeline 2. The front end of the working body 3 is connected by a cable 5 to a winch 4 installed in a well 18, and the rear end to a new pipeline 2 and through a hose (not shown) ) With a compressor 6.

Implementation of the proposed method is as follows.

From the soil surface, before meeting the inspection well 12, an inclined mounting well 10 is formed using a working body 3 (in the presence of loose soils or quicksand, a metal casing 9 is tightened with the same working body 3 at the same time as it penetrates). Then a teapot is installed on the soil surface 14. A flexible corrugated heat-insulating sleeve 11 is passed through the mounting hole 10, one end of which is connected by a flange 13 with a teapot 14 and a flexible pipe 15 to a heat generator 16, the other is placed in a manhole 12. If there is an old pipeline around 1 of frozen soil, the free end of the sleeve 11 is connected to the old pipe 1 and heated air is fed into it until the soil is completely thawed. After that, the sleeve 11 is disconnected from the old pipeline 1. The installation process of the new pipeline 2 is carried out in a teapot 14. The ends of the links of the new pipeline 2 are installed in the guide clip 8 between the two-sided heating element 7 and maintain the set time until they are melted. Then the heating element 7 is removed, and the ends of the links of the new pipeline 2 are pressed with the help of a guide clip 8 until a strong welded joint is formed. Then a new pipeline 2 is pushed through the hole in the greenhouse 14 into the flexible sleeve 11 for the length of the extended link. To the end, passed through the sleeve 11, of the new pipeline 2, a working body 3 is connected and introduced into the old pipeline 1. The new pipe 2 is tightened using the working body 3 and a winch 4 with a cable 5 drawn through the old pipe 1. This operation is periodically alternated with the operation of welding a new pipeline 2. In this case, the process of replacing the old pipeline 1 is performed step by step. Moving inside the old pipeline 1, the working body 3 destroys it, ramming the debris into the soil, and at the same time draws a new pipeline 2 of a larger external diameter into the well being formed than the old one.

The proposed method of replacing pipelines is industrially applicable and allows for high-quality replacement of pipelines year-round, regardless of weather and climatic conditions.

Sources of information

1. RF patent No. 2135874, class. 7 F 16 L 1/028, 1998.

2. RF patent No. 2105919, cl. 7 F 16 L 1/028, 1998.

Claims (1)

A method for trenchless replacement of pipelines, including the removal of an old pipeline and tightening a new pipeline through a pre-assembled installation well, characterized in that the new pipeline is pulled into place of the old pipeline being removed through a flexible corrugated heat-insulating sleeve while it is being installed, while a hot pipe is being inserted between the heat-insulating sleeve and the new pipeline air for heating a new pipeline to a temperature not higher than the temperature of the onset of plastic deformation of it material, and if there is frozen soil around the old pipeline, heated air is fed into the old pipeline before it begins to be removed until the soil is completely thawed.