RU210886U1 - Fixed support for thermally insulated pipelines - Google Patents

Abstract

This utility model relates to a fixed support for thermally insulated pipelines, which can be used to fix pipelines during their laying. The technical result consists in increasing the service life of a fixed support for thermally insulated pipelines by providing its comprehensive protection against corrosion caused by contact with the environment, stray currents in the soil and possible local damage. The fixed support for heat-insulated pipelines contains a branch pipe passed through a metal plate and rigidly connected to it in its middle part, metal protective shells concentrically covering the branch pipe on both sides of the metal plate and rigidly connected to it, heat-insulating material filling the annular spaces between said branch pipes, protective shells and a plate, while the outer surfaces of the metal plate and the outer surfaces of the metal protective shells have an anti-corrosion coating based on polyurea. 1 ill.

Description

This utility model relates to a fixed support for thermally insulated pipelines, which can be used to fix pipelines during their laying.

The prior art supports for fixing heat-insulated pipelines, described in GOST 30732-2020 (GOST 30732-2006), or RU 114503 U1, 03/27/2012, or RU 88098 U1, 10/27/2009.

The mentioned solutions provide for the presence of protective or insulating coatings, however, none of these coatings can provide reliable protection against corrosion when exposed to the environment, together with the presence of dielectric insulation that prevents corrosion caused by stray currents in the soil, as well as effective protection against mechanical influences.

Based on the foregoing, a common disadvantage of the known supports is their short service life due to low corrosion resistance.

Thus, the objective of the claimed utility model is to eliminate the shortcomings of the prior art, and the technical result of the claimed utility model is to create a fixed support for heat-insulated pipelines with a longer service life, provided by its comprehensive protection against corrosion caused by contact with the environment, stray currents in soil and possible local damage.

The mentioned technical result is achieved due to a fixed support for heat-insulated pipelines, containing a branch pipe passed through a metal plate and rigidly connected to it in its middle part, metal protective shells concentrically covering the branch pipe on both sides of the metal plate and rigidly connected to it, heat-insulating material, filling the annular spaces between said branch pipe, protective shells and plate, while the outer surfaces of the metal plate and the outer surfaces of the metal protective shells have a polyurea-based anti-corrosion coating.

It should be noted that the supply of the metal parts of the support, namely the outer surfaces of the metal plate and the outer surfaces of the metal protective shells, with a polyurea-based anti-corrosion coating allows for its comprehensive protection against corrosion caused by contact with the environment, stray currents in the soil and possible local damage, which, in turn, allows to increase the service life of the inventive fixed support for heat-insulated pipelines.

The present application is illustrated in FIG. 1, which shows a longitudinal section of a fixed support for thermally insulated pipelines.

The fixed support for heat-insulated pipelines includes a metal branch pipe (2) passed through a metal plate (1) and rigidly connected in its middle part with it (1), metal protective shells (3) concentrically covering the branch pipe (2) on both sides of the metal plate (1) and rigidly connected to it (1), a heat-insulating material (4), for example, polyurethane foam, filling the annular spaces between the said pipe (2), protective shells (3) and plate (1), while the outer surfaces of the metal plate ( 1) and the outer surfaces of the metal protective shells (3) have an anti-corrosion coating (5) based on polyurea.

Polyurea anti-corrosion coating is a two-component polyurea-based system consisting of: 1) resin in the form of a mixture of polyesteramines with additives and 2) isocyanate, which is a prepolymer of diphenylmethane diisocyanate.

The high reactivity of the primary amino groups of polyetheramines with the isocyanate groups of the prepolymer provides almost instantaneous formation of high molecular weight polyurea in the absence of catalysts. The consequence of the non-catalytic reaction is the stability of the properties of the system during its storage and the reproducibility of the results under various conditions of use, as well as during the transition from one batch of raw materials to another.

Anticorrosion coating based on polyurea, in addition to resistance to aggressive media and high mechanical performance (such as impact strength, penetration resistance and bending strength) at various temperatures, also has a short drying time, a dielectric continuity of at least 5 kV / mm, has a high adhesion to steel, including when kept in water, as well as high rates of fungus resistance and the absence of pores on the cut, with a service life of the coating of at least 30 years.

Claims (1)

A fixed support for thermally insulated pipelines, containing a branch pipe passed through a metal plate and rigidly connected to it in its middle part, metal protective shells concentrically covering the branch pipe on both sides of the metal plate and rigidly connected to it, heat-insulating material filling the annular spaces between the mentioned branch pipes , protective shells and a plate, while the outer surfaces of the metal plate and the outer surfaces of the metal protective shells have an anti-corrosion coating based on polyurea.

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