RU2762216C1 - Connecting part of the pipeline with an external weighting concrete coating - Google Patents

Abstract

FIELD: pipeline construction.

SUBSTANCE: invention relates to the field of construction and repair of pipelines, namely to the connecting parts of pipelines with an applied external weighting concrete coating, with monitoring systems designed for the construction, repair and reconstruction of underwater pipeline crossings, crossings through swamps, laying on flooded areas and offshore sections of pipelines, as well as for underground, surface or aboveground laying of pipelines in seasonally frozen and low-bearing soils. The connecting part of the pipeline with an external weighting concrete coating consists of a branch made of steel pipe with an insulating coating or with an external thermal insulation coating in a polymer or metal polymer shell, and an external concrete coating. The outer concrete coating consists of a concrete mixture with a density from 1900 kg/m³ to 3400 kg/m³.

EFFECT: specified coating is applied by pouring into a removable formwork, which is a monolithic reinforced concrete structure reinforced with a frame of steel elements with plastic clamps installed between the insulation coating of the outlet or polymer/metal polymer shell of the thermal insulation coating of the outlet and the reinforcement frame.

2 cl, 1 dwg

Description

The invention relates to the field of construction and repair of pipelines, namely to connecting parts of pipelines with an external weighting concrete coating, with monitoring systems designed for the construction, repair and reconstruction of underwater pipelines crossings, swamp crossings, laying on flooded areas of the terrain and offshore sections of pipelines , as well as for underground, above-ground or above-ground laying of pipelines in seasonally frozen and weakly bearing soils.

The use of steel bends in the laying of pipelines is widely known.

A known pipe with a ballast coating (patent for a useful model of the Russian Federation No. 93487), containing a central pipe, a shell installed coaxially with the central pipe with the formation of an annular space, having an inner diameter greater than the outer diameter of the central pipe, a supporting-guide device consisting of centralizers , distributed and fixed on the outer surface of the central pipe, and ballast material, characterized in that inside the ballast material there is a reinforcing cage with clamps holding the reinforcing cage on the central pipe, while the reinforcing cage has at least four longitudinal reinforcement, on which The transverse reinforcement is wound in a spiral with an equal pitch, the connection of the longitudinal and transverse reinforcement is carried out using knitting wire and / or welding, and heavy or extra heavy concrete is used as ballast material.

The presence of permanent formwork does not allow inspection of defects in the outer coating of the pipe.

The objective of the present invention is to provide a reliable in operation a pipe connector with an external concrete weight coating.

The technical result of the claimed invention is expressed in increasing the service life of the pipeline by increasing the resistance of the external weighting concrete coating to aggressive media, ensuring uniform ballasting of the pipeline with installed fittings and expanding the scope of the pipeline fittings.

The claimed technical result is achieved through the use of heavy iron ore components, cements with a reduced alkali content of less than 0.6, tricalcium aluminate C3A less than 8% and a low water-cement ratio W / C less than 0.4 in the concrete mixture for the formation of NUPP.

The connecting part of a pipeline with an external concrete weighting coating consists of a bend made of a steel pipe with an insulating coating or with an external heat-insulating coating in a polymer or metal-polymer shell, and an external concrete coating consisting of a concrete mixture with a density of 1900 kg / m ³ to 3400 kg / m ³ , applied by pouring into a removable formwork, which is a monolithic reinforced concrete structure reinforced with a frame made of steel elements with plastic clamps installed between the insulating cover of the bend or the polymer / metal-polymer shell of the heat-insulating cover of the bend and the reinforcing frame.

The invention is illustrated by a drawing. The positions in the drawing indicate:

1 - Pipeline connecting piece (branch) with a protective insulating coating or with an outer heat-insulating coating in a polymer / metal-polymer sheath,

2 - External concrete weight coating,

3 - Reinforcement cage,

4 - Plastic clips.

The connecting part of a pipeline with an external concrete weighting coating is coaxially located: a bend made of a steel electrically welded longitudinal or seamless pipe with an insulating coating and / or an external heat-insulating coating in a polymer / metal-polymer shell, and an external concrete weighting coating applied by pouring into a removable formwork ...

External concrete weighting pavement is a monolithic reinforced concrete structure, reinforced with a frame made of steel rods or steel galvanized mesh.

The coaxiality of the reinforcement cage in relation to the bend is ensured by plastic clamps installed between the insulating cover of the bend or the outer polymer / metal-polymer shell of the thermal insulation cover of the bend and the reinforcement cage.

The average percentage ratio of the cross-sectional area of the reinforcing element to the area of concrete in the longitudinal section is determined by the formula:

where:

S _arm - the cross-sectional area of the annular reinforcement,

S _bet - cross-sectional area of concrete,

d _pr - wire diameter,

D is the diameter of the bend with an external weighting coating,

d _tr is the diameter of a pipe with an insulating coating or a heat-insulating coating in a polymer / metal-polymer sheath,

k is the number of wire rods in the section.

The average percentage ratio of the cross-sectional area of the reinforcing element to the area of concrete in the annular section of the bend is determined as the arithmetic mean of the S _rings over the two end sections of the outer concrete weighting pavement.

The percentage ratio of the cross-sectional area of the reinforcing element to the area of concrete in the annular section is determined by the formula:

where:

S _arm - cross-sectional area of longitudinal reinforcement,

S _bet - cross-sectional area of concrete,

d _pr - wire diameter,

n - the number of wires in the annular section,

H is the thickness of the outer concrete weight coating,

L is the length of the section of the outer concrete weighting pavement.

The average percentage of the cross-sectional area of the reinforcing element of the concrete area coinciding with the longitudinal axis of the pipe is determined as the arithmetic mean S _prod over two longitudinal sections of the outer weighting concrete pavement 1 m long.

For the preparation of the concrete mixture, they use: cement, aggregates, water and a plasticizing additive.

Cements according to GOST 10178 and GOST 31108, as well as cements of similar grades, can be used as cement for the preparation of concrete for a connecting part of pipelines with an external weighting concrete coating.

As placeholders:

- sand, mixtures of natural sands and sands from crushing screenings with properties not lower than GOST 8736;

- non-metallic building materials from screenings of crushing of dense rocks with properties not lower than GOST 31424;

- commercial unrefined iron ores GOST R 52939;

- gravel, crushed gravel, crushed stone from dense rocks for construction work with properties not lower than GOST 8267;

- crushed stone and sand from slags of nonferrous and ferrous metallurgy for concrete with properties not lower than GOST 5578, as well as their combinations;

- barite concentrate with properties not lower than GOST 4682;

- or their combination with characteristics not lower than those listed.

To improve the properties of concrete and reduce the water demand of the concrete mixture, chemical additives should be used in accordance with GOST 24211.

The concrete mix consists of cement, aggregates, water and a plasticizer.

The specified strength characteristics and resistance of the external weighting concrete coating to aggressive environments is achieved through the use of heavy iron ore components in the composition of the concrete mixture, cements with a reduced alkali content less than 0.6, tricalcium aluminate C3A less than 8% and a low water-cement ratio W / C less than 0, 4 as part of a concrete mixture to form an external concrete weight coating.

The type and ratio of the aggregate depends on the required density of the concrete mixture. For concrete mixtures with a design density of up to 2500 kg / m ³ (heavy concrete), standard aggregates and their combinations are used: gravel, crushed gravel, crushed stone from dense rocks for construction work with properties not worse than GOST 8267, sand, mixtures of natural sands and sands from crushing screenings by properties are not worse than GOST 8736, non-metallic building materials from crushing screenings of dense rocks by properties are not worse than GOST 31424. For concrete mixtures on special aggregates, as well as for concrete mixtures with an estimated density of more than 2500 kg / m ³ (especially heavy concrete) , the following materials and their combinations are used as aggregates: commercial iron ores, unenriched GOST R 52939, crushed stone and sand from slags of nonferrous and ferrous metallurgy for concrete with properties no worse than GOST 5578, barite concentrate with properties no worse than GOST 4682, gravel, crushed gravel , crushed stone from dense rocks for construction work with properties not worse than GOST 8267

The design of a pipe connector with an external concrete weight coating can include monitoring systems, for example, cables, sensors. For the installation of monitoring systems, the laying of a cable channel is provided. The cable duct is installed directly under the reinforcement cage and secured with a spiral or longitudinal wire cage.

The inventive design of the pipeline connecting piece ensures uniform ballasting of the pipeline with an external concrete weighting coating.

By reducing the deformation effects on the steel branch due to the applied external concrete weighting coating with the established concrete strength characteristics, the service life of the pipeline connecting part with the external concrete weighting coating increases.

Also, an increase in the service life is achieved by increasing the corrosion resistance of the steel branch by eliminating direct interaction with an aggressive external environment in the conditions of a laid pipeline, by compensating for the internal operating stresses of the steel branch using an external weighting concrete coating reinforced with a steel metal frame or galvanized steel mesh.

By increasing the strength characteristics, frost resistance, chemical resistance of pipeline fittings with an external weighting concrete coating in comparison with the performance characteristics of steel bends, an expansion of the range of application of bends is achieved when laying pipelines in areas subject to risks of mechanical, climatic and natural influences.

Due to the use of heavy iron ore components in the composition of the concrete mixture, cements with a low alkali content less than 0.6 and tricalcium aluminate C3A less than 8% and a low water-cement ratio W / C less than 0.4 in the composition of the concrete mixture for the formation of an external weighting concrete coating, a high the density of concrete for the formation of an external weighting concrete coating, the required strength characteristics and resistance to aggressive environments.

Claims (2)

1. A connecting piece of a pipeline with an external concrete weighting coating, containing a bend made of a steel pipe with an insulating coating or a heat-insulating coating in a polymer / metal-polymer shell, and an external weighting concrete coating consisting of a concrete mixture with a density of 1900 kg / cm ³ to 3400 kg / m ³ , with a low water-cement ratio of less than 0.4, containing heavy iron ore components, cements with a reduced alkali content of less than 0.6 and tricalcium aluminate C3A less than 8%, applied by pouring into a removable formwork, which is a monolithic reinforced concrete structure, reinforced a frame made of steel elements or galvanized steel mesh with plastic clips installed between the insulating cover of the bend or the outer polymeric / metal-polymer shell of the bend and the reinforcement cage. 2. A pipeline connecting piece according to claim 1, characterized in that it contains monitoring systems.

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