RU138537U1 - FLEXIBLE PIPE (OPTIONS) - Google Patents

Abstract

1. A flexible pipe, including an inner thin-walled metal pipe, a protective polymer shell, characterized in that the outer diameter of the thin-walled metal pipe refers to the outer diameter of the protective polymer shell as 1: 2.5 ... 3.5.2. A flexible pipe, including an internal thin-walled metal pipe, reinforcing elements, a protective polymer shell, characterized in that it contains an internal polymer layer on which a reinforcing element is laid, made in the form of a wire or filament braid or winding from one or more counter windings. 3. A flexible pipe, including an internal thin-walled metal pipe, reinforcing elements, a protective polymer shell, characterized in that it contains an internal polymer layer on which a reinforcing element made in the form of tape winding is laid. 4. A flexible pipe, including an internal thin-walled metal pipe, reinforcing elements, a protective polymer shell, characterized in that it contains an inner polymer layer on which the first reinforcing element is laid, made in the form of a single wire or thread winding, as well as a second reinforcing element, made in the form ribbon winding. 5. A flexible pipe, including an internal thin-walled metal pipe, reinforcing elements, a protective polymer shell, characterized in that it contains an internal polymer layer on which a reinforcing element is laid, made in the form of a wire or thread braid or winding from one or more opposing wound, as well as a protective polymer shell accommodates one or more conductive veins, insulated or without insulation,

Description

The utility model relates to the field of production of flexible pipes designed for transporting liquid and gaseous media, coiled tubing operations.

Known flexible load-bearing polymer pipe and method of its use, the walls of which are made of a continuous layer of polymer material, inside of which are placed longitudinal reinforcing elements in the form of a metal tape and transverse reinforcing elements in the form of two opposite coils of metal wires. The pipe may also contain an additional polymer sheath, under which are placed conductive insulated conductors or a cable with conductive conductors [RF Patent No. 2315223 of the Russian Federation, F16L 11/08, F16L 9/12, 2008].

Cables of a flat or round shape containing parallel or twisted cores covered by a protective cushion and armor are known [RF Patent No. 21978, IPC НВВ 7/18, 2002], which may also include tubes for supplying liquid [RF Patent No. 39426, IPC Н01В 7 / 18, 2001].

A capillary pipeline is also known [RF Patent No. 741612, IPC ЕВВ 37/06, 2008], including a polymer pipeline armored with two layers of oncoming wire winding, the gaps between which are filled with polymer, the wire winding is pre-stressed in the radial direction.

The disadvantages of the load-carrying polymer pipe and capillary pipeline is the inability to use them for supplying reagents containing aromatic hydrocarbons at high temperatures and pressures.

Closest to the claimed (prototype) is a flexible long pipe [Patent No. 44782 of the Russian Federation, F16L / 00, 2005], consisting of an internal thin-walled metal pipe, a polymer sheathed with a chemical fiber fiber, a reinforcing element - two-drinkable wire armor laid with gaps between the wires, and a protective sheath of polymer material filling the gaps between the wires of the armor. Also, the pipe may have conductive wires located on the side.

The disadvantage of this cable is the increased cost due to the use of high-strength chemical fiber, in addition, the design of the pipe is aimed at creating tensile strength in the axial direction.

The objective of the utility model is to increase the reliability of a flexible pipe at high pressures and temperatures, pumping aromatic hydrocarbons and corrosive media, with high axial and radial loads, impact and bending, as well as creating a flexible pipe that provides heating for the pumped media, power supply and information transfer.

The problem is solved in that the flexible pipe includes one or more thin-walled metal pipes or polymer pipes, or polymer pipes with a reinforcing element, made in the form of a wire or thread braid or winding a single or double counter, and a protective polymer shell, which may contain a reinforcing element made in the form of a wire or thread braid or winding a single or double oncoming or tape winding, and a protective layer can be laid on the protective shell made in v de tape winding. In addition, the flexible pipe may include one or more conductive conductors, insulated or without insulation, a module with optical fibers, as well as one or more damping elements and a thermal insulation layer.

Figure 1-28 schematically shows the options for the cross section of a flexible pipe, where

1 - thin-walled metal pipe;

2 - protective polymer shell;

3 - wire or thread braid or winding of a protective polymer sheath;

4 - inner polymer layer;

5 - tape winding of a protective polymer shell;

6 - conductive core;

7 - polymer pipe;

8 - wire or thread braid or winding of a polymer pipe;

9 - tape winding of the armor layer;

10 - damping element;

11 - thermal insulation layer;

12 - module with optical fiber;

13 - wire or thread braid or winding of the inner polymer layer.

Option 1 (figure 1). A flexible pipe includes a thin-walled metal pipe 1 on which a protective polymer shell 2 is laid. Moreover, the outer diameter of the thin-walled metal pipe refers to the outer diameter of the protective polymer shell as 1: 2.5 ... 3.5. This design, containing an internal metal channel, allows the transfer of reagents containing aromatic hydrocarbons, and also operate at high internal pressure and temperature. The protective polymer shell 2 protects the thin-walled metal pipe 1 from the corrosive effects of the produced fluid (when using a flexible pipe for supplying reagents to the well), and also protects the inner pipe 1 from kink during bending, and in the case of a transverse external load from collapse. In addition, the protective polymer shell 2 prevents reagent leakage during the destruction of the thin-walled metal pipe 1. The ratio of the outer diameter of the inner thin-walled metal pipe to the outer diameter of the protective polymer shell as 1: 2.5 ... 3.5 is established according to the operating results - at this ratio for lateral only the polymer layer is crushed under the load, and the walls of a thin-walled metal pipe are not deformed.

Option 2 (figure 2). A flexible pipe includes a thin-walled metal pipe 1, a protective polymer shell 2, an inner polymer layer 4, on which a reinforcing element is made, made in the form of a wire or thread braid or winding 3. Moreover, the wire or thread winding can be performed as a single, or contain several counter midwives.

Reinforcement increases the mechanical strength of the flexible pipe. The reinforcing element may be made of wire made of steel, copper, titanium, aluminum, nickel, zinc and their alloys, or aramid, polymer thread (for example, high molecular weight polyethylene) or fiberglass, the reinforcing elements can be braided (intertwined wire or thread) or winding, consisting of coils (layers of wire or thread superimposed at an angle to the axis of the pipe). Depending on the strength characteristics of the wire and thread, as well as the laying method, the strength properties of the entire flexible pipe change. With the increase in the strength characteristics of the wire or thread, the density of the braid or coil, as well as with an increase in the number of windings, the strength characteristics of the flexible pipe as a whole increase. If there are more than one coil, then the scrolls are run counter to prevent the pipe from twisting.

The presence of a wire or drinking braid or winding in this embodiment increases the tensile strength of the flexible pipe in the axial direction.

Option 3 (figure 3). The flexible pipe includes a thin-walled metal pipe 1, a protective polymer shell 2, an inner polymer layer 4, on which a reinforcing element is made, made in the form of a tape winding 5. The presence of a tape winding 5 also increases the strength under radial loading.

Option 4 (figure 4). The flexible pipe includes a thin-walled metal pipe 1, a protective polymer shell 2, an inner polymer layer 4, on which the first reinforcing element is made, made in the form of a single wire or thread winding 3, as well as a second reinforcing element, made in the form of a tape winding 5. Metal channel , allows you to pump reagents containing aromatic hydrocarbons, also work at high internal pressure and temperature. The presence of a wire or thread braid or winding 3 increases the tensile strength of the flexible pipe in the axial direction, and the presence of tape winding 5 increases the strength under radial loading. With the increase in the strength characteristics of the wire or thread, the density of the braid or coil, as well as with an increase in the number of windings, the strength characteristics of the flexible pipe as a whole increase. If there are more than one coil, then the scrolls are run counter to prevent the pipe from twisting. Since the material of the wire or thread winding can be noncorrosion-resistant, the inner polymer layer 4 prevents the reagent from getting on the elements of the wire or thread winding during the destruction of a thin-walled metal pipe. The protective polymer shell 2 protects the reinforcing elements from external corrosive effects, for example, produced fluid, in case of use in wells.

Option 5 (figure 5, 6). A flexible pipe includes a thin-walled metal pipe 1, a protective polymer shell 2, an inner polymer layer 4, on which a reinforcing element is made, made in the form of a wire or thread braid or winding 3. Moreover, the wire or thread winding can be made as single, or contain several counter midwives. In the protective polymer sheath 2 is placed one or more conductive core 6. The conductive core can be either insulated or without insulation. Also, a module with optical fibers 12 can be housed in a protective polymer shell.

Thin-walled metal pipe allows you to pump reagent containing arenas, as well as withstand high pressure. The inner polymer layer protects the reinforcing elements from the effects of the pumped medium in the event of the destruction of a thin-walled metal pipe, and the protective shell from the effects of the external environment. A wire or thread braid or winding creates tensile strength in the axial direction. With the increase in the strength characteristics of the wire or thread, the density of the braid or coil, as well as with an increase in the number of windings, the strength characteristics of the flexible pipe as a whole increase. If there are more than one coil, then the scrolls are run counter to prevent the pipe from twisting.

Conductors can be used to power downhole equipment or electrical heating, and a module with optical fibers allows you to transfer and register information from devices and sensors. For example, one core can be used to power a downhole tool, two wires for electric heating, three wires for powering a submersible electric motor, and a module with an optical fiber can transmit information from devices running on a flexible pipe. Thus, through a flexible pipe, it is possible to pump liquid, both containing aromatic hydrocarbons, and under high internal pressure, supplying electricity, transmitting information.

Option 6 (Fig.7). The flexible pipe includes a polymer pipe 7, a protective polymer sheath 2. The first reinforcing element made in the form of a tape winding 5 is laid on the polymer pipe 7, and the second reinforcing element made in the form of a wire or thread braid or winding 3 is laid on the tape winding 5. can be performed as a single, so contain several oncoming wraps.

The polymer pipe 7 allows you to pump highly aggressive environment. Tape winding 5 increases the strength of the flexible pipe in the radial direction, prevents the expansion of the polymer pipe 7 at high internal pressure, and a wire or thread braid or winding increases the tensile strength in the axial direction. With the increase in the strength characteristics of the wire or thread, the density of the braid or coil, as well as with an increase in the number of windings, the strength characteristics of the flexible pipe as a whole increase. If there are more than one coil, then the scrolls are run counter to prevent the pipe from twisting. The protective shell protects the reinforcing elements from the effects of the external environment.

Option 7 (Fig.8). A flexible pipe includes a polymer pipe 7, on which a reinforcing element is laid, made in the form of a wire or thread braid or winding 3, one or more conductive core 6, a protective polymer sheath 2. The conductive core 6 can be either insulated or without insulation. Also, a module with optical fibers can be placed in a protective polymer shell. The winding can be performed as a single, so it contains several oncoming wraps.

The polymer pipe 7 allows you to pump highly aggressive environment. A wire or thread braid or winding increases the tensile strength in the axial direction, prevents the expansion of the polymer pipe 7 at high internal pressure. With the increase in the strength characteristics of a wire or thread, the density of the braid or coil, as well as with an increase in the number of windings, the strength characteristics of the flexible pipe as a whole, both in the axial and in the radial direction, increase.

Conductors can be used to power downhole equipment or electrical heating, and a module with optical fibers allows you to transfer and register information from devices and sensors. The protective sheath protects the reinforcing elements, cores and the module with optical fibers from the effects of the external environment.

Option 8 (Fig.9-11). The flexible pipe is made round and includes parallel or twisted pipes enclosed in a protective polymer sheath 2. Moreover, the flexible pipe may contain either metal thin-walled pipes or polymer without a reinforcing element or polymer 7 with a reinforcing element made in the form of a wire or thread braid or winding 8. The protective polymer shell may be without a reinforcing element (Fig. 9), with a reinforcing element in the form of a wire or thread braid or winding 3 (Fig. 10) or with an armor layer in the form of flax 5 internal winding (11). Also, the protective polymer shell of the flexible pipe can be simultaneously with a reinforcing element and with an armor layer. With an increase in the strength characteristics of a wire or thread, a density of a braid or coil, and also with an increase in the number of windings, the strength characteristics of the reinforcing element and pipe increase. The winding of the polymer pipe and the protective polymer sheath can be performed as a single one, as well as contain several opposing coils, and the number of coils depends on the pressure at which the flexible pipe is planned to be used.

This pipe allows you to pump various technological media (liquid or gaseous) through internal pipes, if metal thin-walled pipes can transfer media containing aromatic hydrocarbons, and if polymer inner pipes are used, it is possible to pump corrosive media, and if polymer pipes are pumped with high internal pressure, reinforcing elements are used in the form of a wire or thread braid or winding 8 to prevent the expansion of the polymer pipe 7.

The protective shell 2 encloses several internal pipes in one, which makes it easier to install the flexible pipe, in addition, it protects the internal pipes from the external environment, reinforcing the protective shell increases the tensile strength during axial loading of the entire pipe, which, for example, is important when running the flexible pipe into the well to great depths, since the flexible pipe of this design has a large weight. The armor layer can be used to prevent changes in the integrity of the protective polymer shell that can occur, for example, during tripping.

Option 9 (Fig.12-14). The flexible pipe is made round and includes parallel or twisted pipes enclosed in a protective polymer sheath 2. Moreover, the flexible pipe may contain either metal thin-walled pipes or polymer without a reinforcing element or polymer 7 with a reinforcing element made in the form of a wire or thread braid or winding 8. In addition, the flexible pipe includes one or more conductive core 6, which can be either without insulation or with insulation. The protective polymer shell 2 combines the inner pipes and conductive cores 6. The protective polymer shell 2 can be without a reinforcing element (Fig. 12), with a reinforcing element in the form of a wire or thread braid or winding 3 (Fig. 13) or with an armor layer in the form tape winding 5 (Fig.14). Also, the protective polymer shell of the flexible pipe can be simultaneously with a reinforcing element and with an armor layer. The winding of the polymer pipe and the protective polymer shell can be performed as a single, so contain several oncoming wound. Also, a module with an optical fiber 12 (FIG. 12) can be placed in a protective polymer shell.

This flexible pipe allows both pumping different media (liquids and gases) through the channels, as well as powering the equipment or electrically heating the pumped liquids or produced fluid, if the pipe is placed in the well, and transmit and record information from sensors using the module with optical fibers placed in the well.

Option 10 (Fig.15-17) The flexible pipe is made flat in shape and includes parallel pipes enclosed in a protective polymer sheath 2. Moreover, the flexible pipe may contain both metal thin-walled pipes and polymer without a reinforcing element or polymer 7 with a reinforcing element made in the form of a wire or thread braid or winding 8. The protective polymer shell can be without a reinforcing element (Fig. 15), with a reinforcing element in the form of a wire or thread braid or winding 3 (Fig. 16) or with an armor layer in the form 5 entochnoy winding (17). Also, the protective polymer shell of the flexible pipe can be simultaneously with a reinforcing element and with an armor layer. The winding of the polymer pipe and the protective polymer shell can be performed as a single, so contain several oncoming wound.

This pipe allows you to pump various technological fluids through the inner pipes (liquid or gaseous), if metal thin-walled pipes can transfer media containing aromatic hydrocarbons, and if polymer inner pipes are used, it is possible to pump corrosive media, in the case of pumping media through a polymer pipe with high internal pressure reinforcing elements are used in the form of a wire or thread braid or winding 8, which prevents the expansion of the polymer pipe 7 (with by increasing the strength characteristics of the wire or thread, the density of the braid or coil, as well as with an increase in the number of windings, the strength characteristics of the reinforcing element and pipe increase).

The protective shell 2 encloses several internal pipes into one, which makes it possible to simplify the installation of the flexible pipe, in addition, it protects the internal pipes from external influences, reinforcing the protective shell increases the tensile strength under axial loading of the entire pipe (depending on the pressure, a reinforcing element is selected - with an increase in the characteristics of the wire or thread, the density of the braid or coil, as well as with an increase in the number of windings, the strength characteristics of the reinforcing element and pipe increase), which example, it is important during the descent of the coiled tubing into the well at great depths, since the flexible pipe of this construction is heavy. The armor layer can be used to prevent changes in the integrity of the protective polymer shell that can occur, for example, during tripping.

Option 11 (Fig. 18-20). The flexible pipe is made flat in shape and includes parallel pipes enclosed in a protective polymer sheath 2, one or more damping elements 10. Moreover, the flexible pipe may contain both metal thin-walled pipes 1, and polymer without reinforcing element or polymer with reinforcing element, made in the form wire or thread braid or winding. The protective polymer shell may be without a reinforcing element (Fig. 18), with a reinforcing element in the form of a wire or thread braid or winding 3 (Fig. 19) or with an armor layer in the form of a ribbon winding 5 (Fig. 20).

This pipe allows you to pump various technological fluids through the inner pipes (liquid or gaseous), in the case of metal thin-walled pipes, it is possible to pump media containing aromatic hydrocarbons, and if polymer inner pipes are used, it is possible to pump corrosive media, in the case of pumping media with high internal pressure the polymer pipe reinforcing elements in the form of a wire or thread braid or winding 8 prevent the expansion of the polymer pipe 7.

The protective shell 2 encloses several internal pipes in one, which makes it easier to install the flexible pipe, in addition, it protects the internal pipes from the external environment, reinforcing the protective shell increases the tensile strength during axial loading of the entire pipe, which, for example, is important when running the flexible pipe into the well to great depths, since the flexible pipe of this design has a large weight, with an increase in the strength characteristics of the wire or thread, the density of the braid or coil, as well as with an increase in the number of windings Strength characteristics of the reinforcing element and pipe are improved. The armor layer can be used to prevent changes in the integrity of the protective polymer shell that can occur, for example, during tripping.

The damping element can be made in the form of a steel cable, steel wire, fiberglass bar. The damping element protects the inner pipes from side impact or squeezing, and also increases the carrying capacity of the flexible pipe.

Option 12 (Fig.21-23). The flexible pipe is made of a flat shape and includes parallel pipes enclosed in a protective polymer sheath 2, one or more conductive core 6, which can be in isolation or without. Moreover, the flexible pipe may contain both metal thin-walled pipes 1 and polymer without a reinforcing element or polymer with a reinforcing element made in the form of a wire or thread braid or winding. The protective polymer shell may be without a reinforcing element (Fig. 21), with a reinforcing element in the form of a wire or thread braid or winding 3 (Fig. 22) or with an armor layer in the form of a ribbon winding 5 (Fig. 23). Also, a module with optical fibers 12 can be housed in a protective polymer shell (Fig. 22).

This pipe allows you to pump various technological fluids through the inner pipes (liquid or gaseous), if metal thin-walled pipes can transfer media containing aromatic hydrocarbons, and if polymer inner pipes are used, it is possible to pump corrosive media, if the medium is pumped through a polymer pipe with a high pressure, the reinforcing elements in the form of a wire or thread braid or winding 8 prevent the expansion of the polymer pipe 7.

This flexible pipe allows you to both pump different fluids (liquids and gases) through the channels, and to supply power to the equipment or electrically heat the pumped fluids or produced fluid, if the pipe is placed in the well (so if there was one, it is possible to power the downhole tool, two wires - electric heating is possible, three cores - power supply of a submersible electric motor), and due to the module with optical fibers, transmit and register information from sensors.

The protective sheath 2 encloses several internal pipes in one, protects the internal pipes from the effects of the external environment, reinforcing the protective sheath increases the tensile strength under axial loading of the entire pipe - with an increase in the strength characteristics of the wire or thread, the density of the braid or coil, and also with an increase in the number of windings, strength characteristics of the reinforcing element and pipe, which, for example, is important when lowering the flexible pipe into the well to great depths, since the flexible pipe of this design has a lot of weight. The armor layer can be used to prevent changes in the integrity of the protective polymer shell that can occur, for example, during tripping.

Option 13 (Fig.24-26). The flexible pipe is made flat in shape and includes parallel pipes enclosed in a protective polymer sheath 2, one or more damping elements 10, one or more conductive core 6, which can be in isolation or without. Moreover, the flexible pipe may contain both metal thin-walled pipes 1 and polymer without a reinforcing element or polymer with a reinforcing element made in the form of a wire or thread braid or winding. The protective polymer shell may be without a reinforcing element (Fig.24), with a reinforcing element in the form of a wire or thread braid or winding 3 (Fig.25) or with an armor layer in the form of a tape winding 5 (Fig.26). Also, a module with optical fibers 12 can be housed in a protective polymer shell (Fig. 24).

The pipe allows you to pump media of various compositions depending on the manufacture of the inner pipe - in the case of metal token wall it is possible to pump media containing arenes, and in the case of polymer-corrosive media, and at different pressures depending on the number of windings or braids of the reinforcing element, so with an increase in the characteristics of the wire or thread, the density of the braid or coil, as well as with an increase in the number of windings, the strength characteristics of the reinforcing element and would. In addition, the pipe is protected from collapse during lateral impact due to the presence of a damping element, and it is possible to supply power to the equipment or electrically heat the pumped or produced media if the pipe is placed in the well, and transmit and record information from sensors due to the module with optical fibers.

Option 14 (Fig.27). A flexible pipe includes an internal thin-walled metal pipe 1, an inner polymer layer 4, on which a reinforcing element is laid in the form of a wire or thread braid or winding 13, as well as an internal heat-insulating layer 11, a protective polymer shell 2.

The pipe allows you to pump media with a high temperature, the heat-insulating layer keeps the temperature and high pressure, since the pumping is carried out through a thin-walled metal pipe, the pipe due to the reinforcement of the polymer layer has a high tensile strength, and with an increase in the strength characteristics of the wire or thread, the density of the braid or coil , as well as with an increase in the number of windings, the strength characteristics of the reinforcing element and pipe increase.

Option 15 (Fig.28). A flexible pipe includes an inner thin-walled metal pipe 1, an inner polymer layer 4, on which a reinforcing element is laid in the form of a wire or thread braid or winding 13, as well as a heat-insulating layer 11, one or more conductive core 6, which can be without insulation or insulated, protective polymer shell 2.

The pipe allows you to pump media with a high temperature, the heat-insulating layer keeps the temperature and high pressure, since the pumping is carried out through a thin-walled metal pipe, the pipe due to the reinforcement of the polymer layer has high tensile strength and with an increase in the strength characteristics of the wire or thread, the density of the braid or coil, as well as with an increase in the amount of winding, the strength characteristics of the reinforcing element and pipe increase. In addition, due to the presence of a conductive core, it is possible to heat the pumped medium.

Thus, the claimed options for a flexible pipe can withstand high pressures, both due to the presence of a thin-walled metal pipe, and due to the reinforcing elements. Also, a metal pipe allows you to pump various liquids, including reagents containing aromatic hydrocarbons and withstand high temperatures. The presence of conductive conductors in a flexible pipe allows power supply of the equipment or heating of the pumped liquid, and a module with optical fibers allows the transmission and recording of information from sensors and devices. The damper element protects the flexible pipe from impact and lateral collapse and increases the carrying capacity of the flexible pipe.

Information sources:

1. RF patent No. 2315223 of the Russian Federation, F16L 11/08, F16L 9/12, 2008

2. RF patent №21978, НВВ 7/18, 2002

3. RF patent №39426, НВВ 7/18, 2001

4. RF patent No. 741612, ЕВВ 37/06, 2008

5. Patent No. 44782 of the Russian Federation, F16L / 00, 2005

Claims (15)

1. A flexible pipe, including an internal thin-walled metal pipe, a protective polymer shell, characterized in that the outer diameter of the thin-walled metal pipe refers to the outer diameter of the protective polymer shell as 1: 2.5 ... 3.5. 2. A flexible pipe, including an internal thin-walled metal pipe, reinforcing elements, a protective polymer shell, characterized in that it contains an internal polymer layer on which a reinforcing element is laid, made in the form of a wire or thread braid or winding from one or more counter-wounds. 3. A flexible pipe, including an internal thin-walled metal pipe, reinforcing elements, a protective polymer shell, characterized in that it contains an internal polymer layer on which a reinforcing element made in the form of a tape winding is laid. 4. A flexible pipe, including an internal thin-walled metal pipe, reinforcing elements, a protective polymer shell, characterized in that it contains an internal polymer layer on which the first reinforcing element is laid, made in the form of a single wire or thread winding, as well as a second reinforcing element, made in the form of tape winding. 5. A flexible pipe, including an internal thin-walled metal pipe, reinforcing elements, a protective polymer shell, characterized in that it contains an internal polymer layer on which a reinforcing element is laid, made in the form of a wire or thread braid or winding from one or more counter-wound threads, and also in the protective polymer sheath one or more conductive conductors, insulated or without insulation, and / or a module with optical fiber are placed. 6. A flexible pipe, including a polymer pipe, reinforcing elements, a protective polymer sheath, characterized in that the first reinforcing element is laid on the polymer pipe, made in the form of tape winding, and the second reinforcing element, made in the form of a wire or thread braid, is laid on the tape winding or coiling from one or more counter-coils. 7. A flexible pipe, including a polymer pipe, reinforcing elements, a protective polymer sheath, characterized in that the reinforcing element is made on the polymer pipe, made in the form of a wire or thread braid or winding from one or more counter windings, and is also placed in a protective polymer sheath one or more conductive core, insulated or without insulation, and / or module with optical fiber. 8. A flexible pipe, including parallel or twisted pipes, reinforcing elements, a protective polymer shell, characterized in that the flexible pipe is made round and includes two or more thin-walled metal pipes or polymer pipes, or polymer pipes with a reinforcing element made in the form of a wire or a filament braid or winding from one or more opposing coils, the pipes being enclosed in a protective polymer sheath, which may contain a reinforcing element made in the form of a wire or filament taphole or winding of one or more counter helix, and a protective sheath may be installed armoring layer is formed as a winding tape. 9. The flexible pipe of claim 8, characterized in that it may contain one or more conductive core, insulated or without insulation, and / or a module with optical fiber. 10. A flexible pipe, including parallel pipes, reinforcing elements, a protective polymer shell, characterized in that the flexible pipe is made flat and includes two or more thin-walled metal pipes or polymer pipes, or polymer pipes with a reinforcing element made in the form of a wire or thread braids or windings from one or more opposing coils, the pipes being enclosed in a protective polymer sheath, which may contain a reinforcing element made in the form of a wire or thread braid or navi woks from one or more oncoming windings, and a protective layer made in the form of tape winding can be laid on the protective shell. 11. A flexible pipe, including parallel pipes, reinforcing elements, a protective polymer sheath, characterized in that the flexible pipe is made flat and includes one or more thin-walled metal pipes or polymer pipes, or a polymer pipe with a reinforcing element made in the form of a wire or thread braids or coils from one or more opposing coils, as well as one or more damping elements, the pipes and the damping element being enclosed in a protective polymer shell, which may contain reinforcing ment configured as a wire or nitevoy braid or winding of one or more counter helix, and a protective sheath may be installed armoring layer is formed as a winding tape. 12. A flexible pipe, including parallel pipes, reinforcing elements, a protective polymer sheath, characterized in that the flexible pipe is made flat and includes one or more thin-walled metal pipes or polymer pipes, or a polymer pipe with a reinforcing element made in the form of a wire or thread braids or windings from one or more opposing coils, one or more conductive cores, insulated or without insulation, and / or a module with optical fiber, the pipes and cores being enclosed in a protective polymer sheath ku, which may contain a reinforcing element made in the form of a wire or thread braid or winding from one or more opposing windings, and an armor layer made in the form of tape winding can be laid on the protective shell. 13. A flexible pipe, including parallel pipes, reinforcing elements, a protective polymer sheath, characterized in that the flexible pipe is made flat and includes one or more thin-walled metal pipes or polymer pipes, or a polymer pipe with a reinforcing element made in the form of a wire or thread braids or windings from one or more opposing coils, one or more conductive conductors, insulated or without insulation, and / or a module with optical fiber, one or more damping elements, with pipes, conductors, etc. mpfiruyuschie elements are enclosed in a protective polymeric jacket, which may comprise a reinforcing member formed as a wire or nitevoy braid or winding of one or more counter helix, and a protective sheath may be installed armoring layer is formed as a winding tape. 14. A flexible pipe, including a thin-walled metal pipe or a polymer pipe, reinforcing elements, a protective polymer sheath, characterized in that it contains a reinforcing element made in the form of a wire or thread braid or winding from one or more opposing windings, as well as an internal heat-insulating layer. 15. A flexible pipe, including a thin-walled metal pipe or a polymer pipe, reinforcing elements, a protective polymer sheath, characterized in that it contains a reinforcing element made in the form of a wire or thread braid or winding from one or more oncoming wound, one or more conductive core, insulated or without insulation, internal thermal insulation layer.

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