EA034420B1 - Method for sealing a joint of pre-insulated pipes (embodiments) - Google Patents

Abstract

The invention is intended for use in the construction or reconstruction of pipeline transport. A method includes placing a heat shrinkable sleeve made of a sewn translucent plastic over one of the jacket pipes of the abutting pre-insulated pipes, applying adhesive material having a colour contrast or bright compared to the colour of the jacket pipe, on the outer surface of both jacket pipes or on the inner surface of the sleeve or installing embedded heating elements of a colour different from the colour of the jacket pipe on the outer surface of both jacket pipes. After welding the abutting internal working pipes, the sleeve is moved to the second jacket pipe and heated, providing heat shrinkage and formation of an adhesive joint, or, by means of the embedded heating elements, of a welded joint, and after heat shrinking and forming the joint, the cavity between the butts of the insulation layers, the working pipes and the sleeve is filled with the foaming composition. To detect defects of the adhesive or welded joint the visual inspection of forming the fixed joint between the sleeve and the jacket pipes is performed by means of said adhesive material or using the embedded heating element. Furthermore, the visual inspection of forming and polymerizing the insulation layer is performed simultaneously through the sleeve made of translucent plastic. The technical result consists in preservation of properties and characteristics of the insulation at places of butt joints for a long period of time and in increase of the service life of the joint and pipeline systems, accordingly, due to forming a safe sealed joint "heat shrinkable sleeve-jacket pipe" formed by heat shrinking the sleeve and, additionally, by the adhesive or welded joint.

Description

FIELD OF THE INVENTION

The invention relates to the field of construction and reconstruction of pipeline transport used in the power industry, utilities, oil and gas industry, and is intended to provide hydraulic and mechanical insulation protection in one-piece butt joints of piping systems, for example, in thermally insulated pipes.

Background of the Related Art

A technical solution is known according to the patent US 5869153 A, 1999.02.09, IPC B29K 105/02, B29C 61/06, B29K 105/16, B29K 105/32, according to which a hollow cylindrical product containing at least one transparent part is used and one opaque part, while the transparent part is presented in the form of one or more strips and is made by molding or extrusion of a polymeric material having a shape memory.

The known device is not technologically advanced due to the presence of transparent and opaque parts in the structure, the use of two materials (transparent and opaque), which necessitates the use of specialized expensive equipment in the manufacture of the product and allows you to control only the longitudinal arrangement of the joined elements. In addition, the presence of an opaque part does not allow to visualize, for example, the formation and polymerization of the insulating layer, the transverse placement along the entire length of a different-colored adhesive material or embedded heating element, does not ensure tightness, does not exclude errors associated with deviation of temperature conditions when the adhesive material is activated or welding with a heating element (underheating / overheating), there is no possibility of quick detection of errors for on-site repairs, etc.

Closest to the claimed is a method of connecting two pre-insulated pipes (technical solution EP 0114660 from 01/19/1983, IPC F16L 59/20, B29C 44/12), including the location of two pre-insulated pipes so that the end face of one working pipe is installed end-to-end another working pipe, then welding or other one-piece connection of the adjacent ends of the working pipes is made, a connecting sleeve is placed on the outer surface of the previously insulated pipes so as to close the gap between their insulating layers and, if any, outer shells to form a ring-shaped cross-sectional space bounded by the uninsulated ends of the inner pipes, end surfaces of the insulating layers and the inner surface of the coupling, filling said ring-shaped space of the cross-section with insulating material, for example by filling with a liquid or a mixture of liquids, introduced into the named space for the formation of foam, filling the space and forming a rigid mass. According to this technical solution, the hollow sleeve is made of transparent material, which allows visual inspection of the process of filling the coupling space with heat-insulating material, the formation and distribution of the heat insulation layer, and in the event of voids in the heat-insulating layer, to repair it.

However, to ensure long-term operation of the pipeline, it is not enough to provide only visual control of the insulation process. Before carrying out this process, it is necessary to first create optimal and high-quality conditions that guarantee the tightness of the connection between the coupling and the pipe-shell and, thus, ensure the reliability and durability of the pipeline system as a whole. Unfortunately, the absence of these conditions leads to negative consequences such as depressurization of the joint, wetting of the insulation layer, reduction in the life of the assembly and pipeline, unnecessary losses and energy costs.

This feature is associated with the presence of a gap between the outer surface of the pipe shells of the connected pre-insulated pipes and the inner surface of the coupling. For the described technical solution, the gap is characterized by unevenness due to the action of gravity on the loose coupling, which freely rests on the connected ends of the previously insulated pipes, which leads to the absence of a gap at the top of the coupling and its increase in the lower part of the coupling. Thus, the creation of an equally strong and sealed one-piece connection between the coupling and the sheath is difficult.

The next and main disadvantage is the low reliability of sealing the connection, which is carried out on top of the ends of the sleeve with heat-shrinkable tapes. Axial displacements of the pipeline associated with a change in the temperature schedule of the coolant lead to the fact that the soil, in contact with the heat-shrinkable tape, bends its edges over time, which leads to the penetration and wetting of the insulation layer through the above ground water gaps, to increase the thermal conductivity of the insulation, increase energy losses associated with heating the coolant, corrosion of the working pipe and reduce the durability of the pipeline system.

SUMMARY OF THE INVENTION

The claimed invention relates to one of the stages of installation of a pipeline of previously insulated pipes. A pre-insulated pipe consists of a steel (or polymer) inner working pipe (hereinafter referred to as a working pipe) with centering supports installed on it, an external sheath pipe (hereinafter referred to as a sheath pipe), an operational remote control system (hereinafter

- 1 034420

SODK) and insulation layer, usually made of polyurethane foam (PUF). Both ends of the working pipe extend beyond the shell pipe and the insulation layer, i.e. not insulated, which is necessary for future welding (technological indentation), and a coupling is installed above this section after welding the working pipes.

The technical problem solved by the invention is to increase the reliability of hydraulic and mechanical protection of joints of joints of previously insulated pipes, providing the possibility of visual non-destructive testing of an indispensable joint, a heat-shrinkable sleeve-pipe shell at various stages of joint formation (sealing, formation and polymerization of the insulation layer).

Improving the reliability of pipelines within weaknesses, such as butt joints, positively affects the technical characteristics of pipelines, increases the life of the pipeline, thereby reducing operating costs for maintenance, repair, maintenance and other maintenance costs.

The specified technical problem is solved by using the proposed heat-shrinkable sleeve, made entirely of translucent material with shape memory, with the organization of sealing conditions (heating for heat shrinkage), as well as conditions that allow visual and non-destructive testing of the adhesive or welded joint between the heat-shrinkable sleeve and pipe the shell due to the light transmission of the material of the coupling, through which you can see the place of formation of a permanent connection of the coupling and the pipe shells of the pre-isol pipes, while to facilitate visualization, both adhesive and welded joints are formed by means having a color different from the color of the shell pipes.

In the claimed invention, a coupling is used, which is a hollow cylinder made of translucent plastic, for example polyolefins, with a shape memory effect (heat-shrinkable), long enough to cover the insulated section (junction) with inlets to surround the ends of the connected elements (pipe shells), at the same time, the coupling pre-installed on top of the junction on one of the shell pipes after welding the working pipes and cooling the welding places is moved to the working position so that the coupling is located on top and overlaps with the joint uemymi jacket pipe near their ends. A layer of adhesive material having a color different from the color of the shell pipes, predominantly of a contrasting color or any other color or shade released on the surface of the shell pipe, is preliminarily applied to the pipe tubes. Then the sleeve is heated (create conditions for heat shrinkage) and seated.

Adhesive material, receiving energy from heated products (couplings and pipe shells), is activated and evenly distributed between the connected surfaces - on the inner surface of the translucent coupling and the outer surface of the pipe shell, providing a tight connection after cooling, and the contractor - light transmission of the coupling, the difference in the colors of the adhesive material and the material of the sheath pipe creates the conditions for visual non-destructive control of the location, distribution and activation of the adhesive material but at the joints. In this case, if the contractor detects defects associated with the activation and distribution of adhesive material, it is possible to correct the defect, i.e. carry out operational repairs.

In addition to the adhesive joint, a welded joint of a heat-shrinkable sleeve and pipe shells can be used. For this, instead of an adhesive material, a embedded heating element is used having a color different from the color of the pipe shells, mainly a contrast color or any other color that stands out on the surface of the pipe shell. The material of the heat-shrinkable sleeve and the material of which the sheath tubes are made should preferably be the same in this case, for example, polyethylene can be used.

To protect the ends of the translucent coupling at the joints, including to prevent bending of the edges of the coupling, as well as to reduce the negative effects of friction forces of the soil, the joints of the coupling with the outer surface of the pipe shells can be closed with a heat-shrinkable tape over the overlapping joint of the coupling with the outer surface of the pipe shells.

Additionally, the translucent coupler may have at least one process opening for supplying components of an insulating material, air and reaction gases, and its inner surface may be partially or completely coated with adhesive material. Mostly the coupling has a circular cross section, and its length lies in the range from 0.1 to 1 m.

The technical result achieved by the invention is to preserve the properties and characteristics of insulation in the places of butt joints for a long period of time and to increase the life of the joint and, accordingly, pipeline systems due to the formation of a reliable hermetic joint, a heat-shrinkable sleeve - a pipe-sheath formed by heat-shrinkable the sleeve and additionally glue or weld, due to the following:

1) while maintaining the ability to visually control the formation of the insulation layer, it is additionally possible to create and visual non-destructive testing of an inseparable adhesive or welded joint, a heat-shrinkable sleeve - pipe-sheath;

2) the level of quality of the joint shrink sleeve - pipe-shell increases due to visualization of the location of the coupling, placement and activation of the adhesive material or

- 2 034420 visualization of the functioning of the embedded heating element. Identified defects in the joints are eliminated at the stage of formation of the glue or weld by conducting immediate repair of defective places,

3) the technological process of sealing is reduced by eliminating the technological operation of crimping the joint;

4) due to the introduction of adhesive material between the heat-shrinkable sleeve and the outer tube sheath or their connection with a weld in combination with compression of the joints of the heat-shrinkable sleeve, the tightness of the joint and its operational reliability increase significantly;

5) due to the heat shrinkage of the coupling, the non-uniform gap arising under the action of gravity between the pipe-sheath and the heat-shrinkable coupling, freely resting on the connected surfaces, is compensated.

One of the features of pre-insulated pipelines is that the interconnected elements, which are thermally-insulated pipes and fittings, are manufactured in the factory under all necessary conditions, which makes them highly reliable.

The connection (installation) between the above mentioned elements includes the necessary preparatory work, welding of working pipes, sealing, thermal insulation of the joint and is carried out mainly by construction or installation organizations at the facilities.

The complexity of performing these operations, the need for their implementation in the field leads to the fact that the joints of a previously insulated pipeline are one of the most vulnerable places to depressurization. The situation is aggravated by the fact that during the operation of pipelines, a change in the temperature regime of the coolant causes significant fluctuations in the pipeline system, leading to axial movements of the pipeline in the soil layer, which leads to an increase in loads, especially in places of sealing joints. These factors determine the need to increase the requirements for ensuring the reliability and quality of the coupling with the insulated pipe.

Despite the variety of couplings currently offered, their common feature is that sealing the joints of pre-insulated pipes in a polymer sheath with these couplings is provided by one or a combination of several technological methods: compression of the pipe surface due to the use of a sleeve with heat-shrink properties , by connection due to the adhesive layer in the contact, a heat-shrinkable sleeve - pipe-sheath, additional heat-shrinkable tapes from the ends of the sleeve. For similar pipes of large diameters, instead of adhesive material, methods of welding polymer materials using embedded heating elements, radiation welding, or a heated tool have been used.

The use of black shrink sleeves with these methods of sealing leads to the appearance of initially invisible defects, such as shells and / or gas bubbles, an uneven distribution of adhesive, foreign inclusions at the joints, etc. These defects, being internal stress concentrators, do not reach the surface of the joints , and the lack of visual non-destructive testing significantly complicates their identification, limits the ability of work performers, and defects can be detected and eliminated Only during the subsequent process steps, which leads to additional costs.

Even in the case of using a translucent sleeve, for example, as in the closest analogue that allows you to track the formation of the insulation layer, it is not possible to control the formation of the main connection between the heat-shrinkable sleeve and the sheath pipe, since the heat-shrinkable tapes by which the connection is made overlap the view of the pipe joint -shell, thereby complicating the conditions for the contractor and does not provide visualization of the critical area.

In another analogue, the coupling has transparent longitudinal stripes alternating with opaque ones, which also does not allow using it for full visualization of the formation of an annular seam. The inability to control significantly affects the reliability of the joint sealing of pre-insulated pipes and the operational properties of the entire pipeline.

The proposed method, including the use of a heat-shrinkable sleeve, made entirely of translucent plastic with shape memory, for hydraulic and mechanical protection of joints of joints of previously insulated pipes, unlike existing analogues, allows to obtain visual non-destructive testing performed by any known methods, for example, using a magnifier, which is caused a combination of heat-shrinkable properties and light transmission in one product (sleeve), as well as the use of contrast and / or bright color of the adhesive material, or laying the heating element or the adhesive material and the laying of the heating element having a color different from the color of the wrapper tube, allowing to distinguish them on the background, the cladding tube. This solution helps to visually control the main technological operation of sealing the joint, namely, to monitor the process of heat shrinkage and the quality of compression of the heat-shrinkable sleeve of the sheath pipe, the behavior, distribution and activation of the contrast adhesive, to identify and assess the presence and type of defects when performing one-piece connection, for example by welding. This effect is unattainable when using the technical solution of the closest analogue, despite the transparency of the coupling, in which the absence of heat-shrink properties does not allow, firstly, to make a permanent adhesive or welded joint coupling-pipe-sheath without external compression of the coupling, and secondly, to visually control the process of the formation of an integral ring connection.

An additional advantage of using translucent couplings is the prevention of insufficient or excessive melting of the adhesive material, and in the case of using an embedded heating element, to exclude its underheating / overheating.

The length of the proposed coupling should exceed the length of the insulated section (butt joint), which is caused by the peculiarity of the installation of the device, which is made over the pipe-shell and lap. At the same time, for the proposed coupling, its optimal length for different types of thermally insulated pipelines lies in the range from 0.1 to 1 m, which allows you to close the joint to a sufficient degree for its reliable sealing and elimination of material overuse.

The materials for the coupling are mainly translucent plastics with a shape memory effect, including cross-linked (cross-linked) polymers, such as polyethylene, which is largely due to the widespread use of thermally insulated pipelines with waterproofing in a polyethylene sheath pipe.

In order to increase the physicomechanical or operational properties, the materials from which the coupling is made, can be filled i.e. contain known excipients, for example, antistatic agent, nucleator, anti-UV stabilizer, etc.

Clutch blanks are manufactured by various known methods, for example, by extrusion, injection molding, molding, and others.

In US Pat. No. 5,869,153 A, known from the prior art, a heat-shrinkable sleeve for sealing has transparent and opaque portions, which partly allows you to control the longitudinal arrangement of mating elements, but is not intended to control the quality of the annular connection of the heat-shrinkable sleeve with elements along the entire length where an integral adhesive or weld.

In the claimed invention, the heat-shrinkable sleeve is completely made of translucent material, which, in combination with the color of the adhesive material or the color of the embedded heating element, which differ from the color of the shell pipe and the sleeve, allows to obtain a new property - visualize (control) the sealing process in dynamics with the formation of adhesive or weld, thereby ensuring stable quality at one of the initial stages of the coupling - pipe-sheath joint and, if necessary, correct possible effects.

A new combination of features characterizing the operation of the method, namely the use of a translucent heat-shrinkable sleeve and the selected color of the adhesive material or embedded heating element, allows to achieve the above technical result. The heat-shrinkable sleeve due to heat-shrinkage forms not only the connection to the pipe-shell due to its compression, but also, due to heat-shrinkage, creates the conditions for making an adhesive or weld without additional external devices. Moreover, due to the chosen color of the adhesive material or embedded heating element in combination with the property of the coupling material, such as transparency or translucency (for thin-walled couplings), and the absence of interfering visualization of external crimping means, the entire process of the formation of an adhesive or welded joint is effectively controlled couplings with a pipe-sheath, which together ensures the achievement of the above technical result. In addition, as in the closest analogue, during the implementation of the method, it is possible to monitor the formation of an insulating (heat-insulating) layer under the sleeve.

List of figures

The essence of the claimed invention is illustrated by drawings and explanation to them.

FIG. 1 - joint pipe prior to placement of heat-shrinkable sleeve; adhesive tapes are installed over the jacket pipe.

FIG. 2 is an isometric view of the joint of pre-insulated pipes after heat shrinkage of the coupling.

FIG. 3 - connection sleeve-shell with a defect in the shell on the adhesive material, a local cutout, position A.

FIG. 4 - connection sleeve-shell with a defect in adhesive material - uneven seam, local cutout, position A.

FIG. 5 - connection sleeve-shell with defects in the form of accumulation of pores and foreign inclusions, local cutout, position A.

FIG. 6 - connection sleeve-shell with a embedded heating element with leads for connection, in position A.

In the drawings, the positions indicated:

- 4 034420

- internal working tube;

- outer pipe-shell;

- adhesive material;

4 - heat-shrink sleeve, made entirely of translucent material;

- insulating (heat-insulating) layer;

- tape made of adhesive material;

7 - embedded heating element;

- points of connection to an autonomous energy source;

- joint defect heat-shrinkable sleeve - pipe-shell in the form of a shell;

- joint defect heat-shrinkable sleeve - pipe-sheath in the form of an uneven seam;

- defective joint heat-shrinkable sleeve - pipe-sheath in the form of an accumulation of pores and foreign inclusions.

In order to simplify the images of the construction of the butt joint of pre-insulated pipes or fittings, other elements, such as centering supports, conductors of the insulation layer monitoring system (SODK), etc., are not conventionally shown.

Information confirming the possibility of carrying out the invention.

The method is as follows.

Pre-insulated pipes include an inner working pipe 1, an outer pipe shell 2, and an insulating layer 5.

During the installation of the pipeline, pre-insulated pipes are connected in series. Before joining the working pipes, a heat-shrinkable sleeve 4 in a protective case made of fully or partially translucent plastic with a shape memory effect is put on one of the joined pre-insulated pipes, placing the sleeve 4 with a gap over the pipe shell 2 at some distance from the junction.

The diameter of the heat-shrinkable sleeve 4 before its heat shrink may exceed the diameter of the outer tube of the shell 2, for example, by 1-50%, preferably by 1-30%. The heat-shrinkable sleeve 4 after shrinkage usually has a diameter equal to the diameter of the sheath pipe 2. The heat-shrinkable sleeve 4 can be made with a wall thickness of up to 23.5 mm (usually not more than 20 mm), while a transparent material must be selected to ensure the ability to visualize the processes occurring under the coupling. If the wall thickness of the heat-shrinkable sleeve 4 is small, not more than 2t7 mm, the sleeve can be made of white (or other color) opaque material.

Technological indentation of the working pipe 1 extend beyond the shell pipe 2 and the insulating layer 5, preferably from 100 to 350 mm. The working pipes 1 are installed end-to-end and welded together to form an airtight integral connection. The shell pipes 2 and the ends of the insulation layer are located at a distance from each other, equal to the sum of the lengths of the technological spacing of the joined working pipes 1. After welding the working pipes 1 and confirming the tightness of the weld, additional work is carried out (cleaning the joined surfaces from dirt, degreasing, joining SODC conductors, etc.).

To connect the coupling - pipe-shell by gluing on prepared surfaces along the edges of the pipe-shells 2, install (wrap around the entire diameter of the pipe-shell 2) and fix the adhesive material 3. The adhesive material 3 is made in the form of a tape 6 and should differ in color, or brightness , or a shade from the color of the sheath pipe 2. In addition, the adhesive material 3 instead of being located on the outer sheath pipe 2 can be preliminarily applied to the inner surface of the heat-shrinkable sleeve 4 locally - near its ends or throughout the surface of it. The thickness of the adhesive material in any application is in the range from 0.1 to 5 mm, preferably not more than 3 mm.

According to another embodiment of the connection, a heat-shrinkable sleeve-pipe-jacket using welding along the edges of the pipe shells 2 install embedded heating elements 7 with terminals 8 for connecting an autonomous energy source, while embedded heating elements 7 have a color different from the color of the pipe shells 2 (a different color, or brightness, or shade).

The predominant color of the pipe shell 2 is black.

Next, remove the protective cover from the coupling 4 and push it into the working position on the joint, while the light transmission of the coupling contributes to its exact location relative to previously fixed tapes of the adhesive material 3 or embedded heating element 7. The heat-shrinkable sleeve 4 is positioned so that the sleeve is mounted above the pipes to be joined - shells 2, over layers of adhesive material 3 or over embedded heating elements 7. By means of heat, such as a burner flame, the inner surface is heated from the ends couplings 4 and melt adhesive material 3.

At the same time, the outer surface of the heat-shrinkable sleeve 4 is heated and seated. In this case, the heat-shrinkable sleeve 4 as a result of heat shrinkage tightly covers the outer surface of the pipe shells 2. Heat-activated adhesive material 3, made in the form of a tape or deposited on the inner surface of the sleeve, covered and compressed due to the heat shrink

- 5 034420 with the edges of the coupling 4, is evenly distributed over the connecting surface of the pipe shell 2 and the heat-shrinkable sleeve 4, forming after cooling a tight connection between the sleeve 4 and pipe shell 2. The use of the sleeve 4 allows visually-perceptible material of the sleeve to be used to manufacture the sleeve , in a non-destructive way, to control the sealing process, and in case of defects detected, for example, by simple means, for example using a magnifying glass, to repair the one-piece joint between the sleeve 4 and the pipe shell 2.

An electric embedded heating element of a contrasting color and / or bright color compared to the color of the sheath pipe is used in the case of installation of pipes of medium and large diameters, for example, with a diameter of more than 300 mm. To form a coupling - pipe-shell joint with a welded seam of the embedded element, the heating element 7 is heated, connecting an autonomous energy source to it through the terminals 8, and the sleeve 4 is shrunk.

In FIG. 3, 4, 5 show possible defects of the permanent connection heat-shrinkable sleeve 4 pipe-shell 2, which are easily detected by visual inspection if the invention is used to seal the joint of pre-insulated pipes using a transparent (translucent) sleeve and adhesive material 3, different in color (contrast color or a brighter color) compared to the pipe-shell 2, made in the form of a tape 6 or embedded heating element 7, also a different color contrasting color or brighter color) Compared with truboyobolochkoy 2.

In FIG. 3 - shows the joint defect heat-shrinkable sleeve 4 - pipe-shell 2 in the form of a shell 9 on the adhesive material 6.

In FIG. 4 shows the connection of the coupling - pipe-shell with a defect in the form of an uneven seam 10 on the adhesive material 6.

In FIG. 5 shows the connection of a heat-shrinkable sleeve 4 - pipe-shell 2 with defects in the form of an accumulation of pores 11 and foreign inclusions on the adhesive material 6.

As noted above, in order to detect defects in the adhesive joint formed by the adhesive activated by heating, through the coupling made of translucent plastic, visual processes are monitored for the formation of the permanent connection of the coupling with the shell pipes by means of the said adhesive material, which has a contrast and / or bright color in comparison with the color of the sheath pipe, or by means of a built-in heating element of a contrasting color and / or bright color in comparison with the color of the sheath pipe. In addition, at the same time they conduct visual control over the formation and polymerization of the insulating layer through the same coupling made of translucent plastic.

The joints of the coupling 4 with the outer surface of the pipe shell 2 are closed by a heat-shrinkable tape overlapping the joint of the coupling 4 with the outer surface of the pipe shell 2 near the end of the coupling

4. As a result, the connection of the coupling 4 with the pipe sheath 2 is sealed twice. The first seam is formed by adhesive material or a weld, and the second due to the shrinkage of the heat-shrinkable tape, which prevents the coupling from bending along the edges and, as a result, protects the adhesive or weld that connects the sleeve to the pipe-sheath from mechanical action of external forces.

Claims (21)

CLAIM 1. A method of sealing the joint of pre-insulated pipes, consisting of an inner working pipe, an insulating layer and a sheath pipe, comprising placing a sleeve on top of one of the sheath pipes of the joined pre-insulated pipes, applying adhesive material in the form of a wrapped around the outer surface of both sheath pipes the outer pipe-sheath of the tape having a contrasting and / or bright color compared to the color of the sheathing pipe, using a heat-shrinkable sleeve made entirely of translucent stitch of the plastic, after welding the internal working tubes to be joined, the coupling is moved axially towards the second casing pipe and placed over the adhesive material of both casing pipes, then the casing is heated to provide heat shrinkage and formation of lap joints with casing pipes due to heat shrinkage, at the same time, the adhesive material in the form of a tape is activated by heating to form a heat-shrinkable sleeve-pipe-jacket after its cooling, and after the heat shrink is completed, by the development of the adhesive joint, the heat-shrinkable sleeve-pipe-shell through the hole in the sleeve is filled with a foamable composition, the cavity is limited by the uninsulated sections of the connected inner working pipes, the end surfaces of the insulating layers and the inner surface of the sleeve, then the hole is sealed, in order to detect defects in the adhesive joint formed by the adhesive material visual control of the processes of the formation of a permanent connection of the coupling with the shell pipes by activated heating m adhesive material, a contrast and / or bright color compared to the color trubyobolochki and conduct a visual control of the polymerization and the formation of the insulating layer through a sleeve of a translucent plastic. - 6,034,420 2. The method according to claim 1, characterized in that the joints of the heat-shrinkable sleeve with the outer surface of the shell pipes are closed with a heat-shrinkable tape that overlaps the joint of the heat-shrinkable sleeve with the outer surface of the outer tube-shell near the end of the heat-shrinkable sleeve, and it is heat-shrink by heating. 3. The method according to claim 1, characterized in that the heat-shrinkable sleeve made of translucent plastic with a wall thickness of 2 × 23.5 mm is made transparent. 4. The method according to claim 1, characterized in that the heat-shrinkable sleeve made of translucent plastic with a wall thickness of 2-7 mm is made matte white. 5. The method according to claim 1, characterized in that the thickness of the tape of adhesive material is from 0.1 to 5 mm 6. The method according to claim 1, characterized in that the diameter of the heat-shrinkable sleeve before its heat shrinkage exceeds the diameter of the outer pipe-shell by no more than 1-50%. 7. The method according to claim 1, characterized in that the diameter of the heat-shrinkable sleeve before its heat shrinkage exceeds the diameter of the outer pipe-shell by no more than 1-30%. 8. The method according to claim 1, characterized in that the wall thickness of the heat-shrinkable sleeve does not exceed 20 mm 9. A method of sealing the joint of pre-insulated pipes, consisting of an inner working pipe, an insulating layer and a sheath pipe, comprising placing a sleeve on top of one of the sheath pipes of the joined pre-insulated pipes, installing embedded heating elements having means on the outer surface of both sheath pipes for connection with an energy source and painted in a contrasting and / or bright color in comparison with the color of the outer pipe shell, using a heat-shrinkable sleeve, it is completely made made of translucent cross-linked plastic, after welding the joined working pipes, the heat-shrinkable sleeve is moved axially towards the second shell pipe and the heat-shrinkable sleeve is placed above the embedded heating elements of both shell pipes, then the heat-shrinkable sleeve is heated from an external energy source, providing heat shrinkage, and embedded heating elements form a welded joint of a heat-shrinkable lap sleeve with sheath pipes, after the end of heat shrinkage and the formation of weld of the joint, the heat-shrinkable sleeve-pipe-jacket to obtain an insulating layer through the hole in the sleeve is filled with a foamable composition to a cavity limited by the uninsulated sections of the connected inner working pipes, the end surfaces of the insulation layers and the inner surface of the sleeve, in order to detect defects in the adhesive joint formed by the adhesive material, conduct visual monitoring of the formation of one-piece coupling with the shell pipes activated by adhesive heating material that is contrasting and / or bright in color compared to the color of the sheath pipe, and also conduct visual inspection of the formation and polymerization of the insulating layer through a sleeve of translucent plastic, while the joints of the heat-shrinkable sleeve with the outer surface of the pipe shells are closed with a heat-shrinkable tape, the overlapping joint of the heat-shrinkable sleeve with the outer surface of the outer pipe-sheath near the end of the heat-shrinkable sleeve, and heat-shrink it by heating. 10. The method according to claim 9, characterized in that the heat-shrinkable sleeve made of translucent plastic with a wall thickness of 223.5 mm is made transparent. 11. The method according to claim 9, characterized in that the heat-shrinkable sleeve made of translucent plastic with a wall thickness of 2-7 mm is made matte white. 12. The method according to claim 9, characterized in that the diameter of the heat-shrinkable sleeve before its heat shrink exceeds the diameter of the outer pipe-shell by no more than 50%. 13. The method according to claim 9, characterized in that the diameter of the heat-shrinkable sleeve before its heat shrinkage exceeds the diameter of the outer pipe-shell by no more than 30%. 14. The method according to claim 9, characterized in that the wall thickness of the heat-shrinkable sleeve does not exceed 20 mm 15. A method of sealing the joint of pre-insulated pipes, consisting of an inner working pipe, an insulating layer and a sheath pipe, comprising placing a sleeve on top of one of the sheath pipes of the joined pre-insulated pipes, applying an adhesive material to the outer surface of both sheath pipes having a contrast and / or a bright color compared to the color of the sheath pipe, using a heat-shrinkable sleeve made entirely of translucent cross-linked plastic, on the entire inner surface of which adhesive or a part of the inner surface in the area of the ends of the coupling, adhesive is applied after welding of the joined inner working pipes, the coupling is axially directed towards the second casing pipe and placed over both casing pipes, then the coupling is heated, ensuring its heat shrinkage and formation due to thermal shrinkage of the joint of the coupling with the lining pipes with the simultaneous activation of the adhesive material, by the same heating of the coupling with the formation of a heat-shrinkable coupling -truby shell, and after the shrinking concurrently with - 7 034420 by varying the formation of the adhesive joint, the heat-shrinkable sleeve-pipe-sheath through the hole in the sleeve is filled with a foamable composition into the cavity defined by the uninsulated sections of the connected inner working pipes, the end surfaces of the insulating layers and the inner surface of the sleeve, and then the hole is sealed to seal defects of the adhesive joint formed by the adhesive material, they are visually monitoring the processes of the formation of an integral connection of the coupling with the shell pipes of the asset by heating with adhesive material, contrasting and / or bright in color compared to the color of the sheath pipe, they also visually monitor the formation and polymerization of the insulating layer through a sleeve made of translucent plastic, while the joints of the heat-shrinkable sleeve with the outer surface of the pipe shells are closed a heat-shrinkable tape that overlaps the junction of the heat-shrinkable sleeve with the outer surface of the outer pipe-sheath near the end of the heat-shrinkable sleeve, and heat-shrink it by heating. 16. The method according to clause 15, characterized in that the heat-shrinkable sleeve made of translucent plastic with a wall thickness of 2 ^ 23.5 mm is made transparent. 17. The method according to p. 15, characterized in that the heat-shrinkable sleeve made of translucent plastic with a wall thickness within 2-7 mm is made matte white. 18. The method according to p. 15, characterized in that the thickness of the adhesive material is from 0.1 to 5 mm 19. The method according to p. 15, characterized in that the diameter of the heat-shrinkable sleeve before its heat shrinkage exceeds the diameter of the outer pipe-shell by no more than 1-50%. 20. The method according to p. 15, characterized in that the diameter of the heat-shrinkable sleeve before its heat shrinkage exceeds the diameter of the outer pipe-shell by no more than 1-30%. 21. The method according to clause 16, characterized in that the wall thickness of the heat-shrinkable sleeve does not exceed 20 mm