RU2317469C1 - Combined pipe with ballast coating - Google Patents

Abstract

FIELD: pipeline engineering.

SUBSTANCE: combined pipe comprises central pipe for flowing gas or liquid, shell coaxially mounted to the central -pipe to define a ring space whose diameter is greater than that of the outer diameter of the central pipe and length lesser than the length of the central pipe, bearing guiding member that is composed of distribute concentrators secured to the outer surface of the central pipe, and ballast agent that fills the ring space. The shell is a spiral-shaped member made of zinced steel belt.

EFFECT: improved design.

8 cl, 5 dwg

Description

The invention relates to pipeline technology, namely to pipes with a ballast coating, used when laying pipelines along the bottom of reservoirs and in wetlands.

Known combined pipe, consisting of a concrete pipe, an external polymer spiral pipe having many ribs on the inner surface, connecting it to the outer surface layer of the concrete pipe; inner polymer spiral pipe having many ribs on the outer surface connecting it to the inner surface layer of the concrete pipe [1].

A disadvantage of the known combined pipe is that both the inner and the outer polymer pipes are thin-walled, therefore, the combined pipe cannot be used for transporting liquid or gas under high pressure. In addition, such pipes that do not have centralizers are made upright in special centering devices; they have a length significantly less than the length of the pipes accepted for trunk pipelines (12 meters).

Known steel combined pipe with a concrete coating, having on its outer surface glued in the form of rings of tape of a durable material, impregnated with a binder in a pasty state [2].

The disadvantage of this combined pipe is that it does not have a shell on the outer concrete surface that protects the concrete from destruction by the action of water or the flooded medium in which the pipe is laid.

Known pipe combined with a ballast coating (prototype) [3], which consists of a Central pipe that conducts the substance in a gaseous or liquid state; a shell mounted coaxially with the central pipe to form an annular space having an inner diameter larger than the outer diameter of the central pipe and a length shorter than the length of the central pipe; supporting-guide device, consisting of centralizers, distributed and fixed on the outer surface of the Central pipe, having supports; ballast material filling the annular space.

The disadvantage of this pipe combined with a ballast coating is that the inner surface of the polymer shell has a small roughness, providing a limited amount of adhesion to concrete, insufficient when laying the pipeline, which can lead to a shift of the shell clamped in the tensioner relative to concrete.

The technical problem posed in the utility model of the new construction of the combined pipe is to provide an increased adhesion force between the inner surface of the shell and the outer surface of the ballast coating of such a magnitude that when laying the combined pipe to the bottom of the reservoir using the S-method, there is no displacement of the central pipe with the ballast coating relatively clamped in the shell tensioner.

An additional objective is to increase the adhesion between the central tube and the ballast coating.

The problem is solved in the construction of a combined pipe, consisting of a central pipe that conducts the substance in a gaseous or liquid state; a shell mounted coaxially with the central pipe to form an annular space having an inner diameter larger than the outer diameter of the central pipe and a length shorter than the length of the central pipe; support-guide device, consisting of centralizers distributed and fixed on the outer surface of the central pipe, having supports, ballast material filling the annular space, the shell being spiral-wound from galvanized steel tape with protruding inward seams and having a protective coating on the outer surface.

The protective coating on the shell can be either single-layer or two-, three-layer, similar to the protective coating of steel pipes for main pipelines. It is preferable that the protective coating on the shell has an outer layer of polyethylene with a thickness selected from an interval of 2-8 mm, which eliminates the collapse of the spiral-wound shell when the pipeline is clamped in a tension device.

If the central pipe is steel, then it has a protective coating on the outer surface with annular protrusions that provide better adhesion to the ballast coating (of cement-sand mixture or concrete) than the protective coating without annular protrusions. The adhesion of the ballast-coated pipe increases if the annular protrusions are made rectangular and placed in increments greater than the length of the base of the centralizer supports, while the supports are installed between the annular protrusions and provide additional adhesion of concrete to the protective coating and, accordingly, to the central pipe.

If the supports in the centralizer are connected by at least one steel tape or wire, then it is installed in the grooves on the side of the opposite chamfer, and the supports can be installed with an emphasis on the ends of the rectangular annular protrusions, which ensures their stability during assembly of the central pipe with the sheath, during which the force of interaction of the support with the protruding seams of the shell can be pulsating. Reinforcing bars for reinforcing the ballast coating can be fixed on a steel tape or wire.

In the manufacture of the central pipe from a polymeric material, it has annular projections of a rectangular shape from a polymer tape on the outer surface, placed with a step exceeding the length of the base of the centralizer supports. If the supports in the centralizer are connected by at least one steel tape installed in the grooves that are in each support on the opposite chamfer side, then they can be installed with emphasis on the ends of the rectangular annular protrusions.

To reduce or eliminate the pulsation of the force of interaction of the supports with the spiral sheath seams protruding inwardly, the ratio of the length of the surface of the support in contact with the inner surface of the spiral sheath to the pitch of the seam helix is equal to or more than 2, while the support is constantly in contact with two protruding seams at the same time and has a stable position relative to the inner surface of the shell.

It is the new combination of features in the invention of the combined pipe that provides the technical effect of increasing the adhesion force between the surface of the ballast coating and the surface of the shell to a level that excludes the displacement of the central pipe with the ballast coating relative to the shell clamped in the fixture during lowering the combined pipe to the bottom of the reservoir by the S-method.

Figure 1 shows a longitudinal section of a combined pipe having a central pipe with a protective coating.

Figure 2 shows a longitudinal section of a combined pipe having a central pipe with a protective coating with annular protrusions.

Figure 3 shows a longitudinal section of a combined pipe having a central pipe with a protective coating with rectangular protrusions.

Figure 4 shows a longitudinal section of a combined pipe having a central pipe made of polyethylene with annular projections of a rectangular shape.

Figure 5 shows a cross section of a pipe combined in the centering ring zone.

The combined pipe consists of (Figs. 1-5) a central pipe 1 (steel, of a polymeric material, for example, polyethylene, of a composite material), conducting the substance in a gaseous or liquid state; a shell 2 mounted coaxially to the central pipe to form an annular space 3 having an inner diameter larger than the outer diameter of the central pipe and a length shorter than the length of the central pipe; supporting-guide device, consisting of centralizers 4 distributed and fixed on the outer surface of the central pipe 1, having supports 5; ballast material 6 filling the annular space 3; the central pipe may not have protrusions (Fig. 1) or has annular protrusions 7 (Figs. 2, 3, 4) located on planes perpendicular to the axis of the central pipe; the sheath 2 is a spiral-wound galvanized steel strip 8 and has seams 9 protruding on the inner surface, and the protective coating 10 with the outer layer 11 is preferably made of polyethylene.

The step of the annular protrusions S _to more than the length L _op base of the supports 5 (Fig.1-4).

The supports in the centralizer are connected by a tape 12 installed in the grooves 13 from the side opposite the chamfer 14, while the end face 15 of the support having a groove 13 is adjacent to the end face 16 of the annular protrusion 7 (Fig.3, 4).

The seams 9 of the spiral sheath protrude inward, and the ratio of the length of the surface of the support 5 in contact with the inner surface of the spiral sheath 8 to the step S _{in the} helix of the seam 9 is equal to or more than 2 (L _n / S _in ≥2), therefore, when the central pipe _is pushed _in with fixed on it by the centralizers 4, the supports 5 slide along two adjacent seams 9, which ensures the smooth movement of the central pipe 1 during assembly (Figs. 1-4).

The thickness of the polyethylene coating 11 on the outer surface of the spiral shell 2 is selected from an interval of 2-8 mm At this value, the polyethylene coating layer has sufficient strength for the underwater pipeline and provides more uniform pressure of the tensioning device on the spiral-wound sheath.

When laying the pipe with the S-method combined at the bottom of the pond using a tension device that prevents spontaneous lowering of the pipe, the central pipe is firmly held in concrete, and concrete together with the central pipe is held in the shell clamped in the tension device due to the increased adhesion of the spiral casing to the outer surface of the concrete .

A new combination of features of a combined pipe was not found in a patent information search, which confirms its novelty, and the use of a spiral-wound casing made of galvanized steel tape as a casing for ballast coating does not follow from the prior art.

Information sources

1. US patent No. 5573040 from 02.20.1996.

2. Patent JP Publ. No. 2001-303558 dated 10/31/2001, Decl. No. 2000-119265 dated 04/20/2000.

3. Patent RU No. 2257503 dated 10.22.2003.

Claims (9)

1. A combined ballast-coated pipe, consisting of a central pipe conducting the substance in a gaseous or liquid state, a sheath installed coaxially with the central pipe to form an annular space having an inner diameter larger than the outer diameter of the central pipe and a length shorter than the length of the central pipe , supporting and guiding device, consisting of centralizers distributed and fixed on the outer surface of the central pipe, with chamfers on the surfaces in contact with the inner erhnostyu helicallywound shell having supports, the ballast material filling the annular space, characterized in that the shell is helicallywound galvanized steel strip with inwardly projecting seams and has, on the outer surface of the protective coating. 2. The combined pipe according to claim 1, characterized in that the protective coating on the shell has an outer layer of polyethylene. 3. The combined pipe according to claim 2, characterized in that the thickness of the outer layer of polyethylene is selected from an interval of 2-8 mm. 4. The combined pipe according to claim 1, characterized in that the central pipe is steel and has a protective coating with annular protrusions on the outer surface. 5. The combined pipe according to claim 4, characterized in that the annular protrusions are rectangular in shape and placed in increments greater than the length of the base of the centralizer support. 6. The combined pipe according to claim 5, characterized in that the supports in the centralizer are connected by at least one steel tape installed in the grooves in each support from the side opposite the chamfer. 7. The combined pipe according to claim 1, characterized in that the central pipe is made of a polymer material, has annular projections of a rectangular shape on the outer surface, placed in increments greater than the length of the base of the centralizer supports. 8. The combined pipe according to claim 7, characterized in that the supports in the centralizer are connected by at least one steel tape installed in the grooves in each support on the side of the opposite facet. 9. The combined pipe according to any one of claims 1 to 8, characterized in that the ratio of the length of the surface of the support in contact with the inner surface of the spiral sheath to the pitch of the helical joint line is equal to or more than 2.

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