RU190240U1 - Heat-insulated pipe with an outer polymer coating - Google Patents

Abstract

A heat-insulated pipe with an outer polymer coating is proposed, containing a pipeline element and successively located above it: a heat-insulating layer of polyurethane foam with centering supports, which ensure the alignment of the pipeline element, and the outer polymer coating of the protective sheath. Between the insulating layer of polyurethane foam with centering supports and the outer polymer coating of the protective shell is a metal protective sheath, while the proposed pipe has a waterproofing coating of the ends of the heat-insulating layer of polyurethane foam with centering supports together with a metal protective sheath. The technical result is an increase in the strength of the heat-hydro-insulated coating. 4 hp f-ly, 2 ill.

Description

The utility model relates to the construction and can be used in the construction of thermal routes, operated at a constant temperature of the transported coolant 140 ° and above, with underground laying of pipelines.

Known pipe with a ballast coating, see RF patent №99580 from 11/20/2010. This pipe contains a central pipe, a shell installed coaxially with the central pipe with the formation of an annular space, having an inner diameter larger than the outer diameter of the central pipe, a support-guide device consisting of centralizers, and a ballast material. At the same time, a layer of polyurethane foam is applied between the central tube and the ballast material, on which the centralizers are distributed and fixed, inside the ballast material there is a reinforcement cage with clamps holding the reinforcement cage on the polyurethane foam layer. The reinforcement cage has at least four longitudinal reinforcements, on which transverse reinforcement is wound in a spiral with equal pitch, the connection of longitudinal and transverse reinforcement is made with the help of tie wire and / or welding, and concrete mixture is used as the ballast material. The disadvantage of this device is the complexity, high cost and weight with not very good thermal insulation.

The closest device is the patent of the Russian Federation No. 172771 dated 07.24.2017 which discloses a heat-hydro-insulated pipeline product. This tubular product contains a pipeline element and successively located above it: a heat-insulating layer of polyurethane foam with centering bearings, which ensure the coaxiality of the pipeline element with the heat-insulating layer of polyurethane foam placed on it, and the outer polymer coating of the protective sheath. At the same time there is a waterproofing coating on the ends of the heat-insulating layer of polyurethane foam with centering supports. The disadvantage of this device is low mechanical strength at low negative temperatures.

The objective of the proposed technical solution is the design of a heat-hydro-insulated pipeline product with high mechanical strength of a heat-hydro-insulated coating at low negative temperatures.

The technical result is an increase in the strength of the heat-hydro-insulated coating.

The technical result is achieved by the fact that the pipe is heat-insulated with an outer polymer coating includes a pipeline element and successively located above it: a heat-insulating layer of polyurethane foam with centering supports, which ensure the alignment of the pipeline element, and the outer polymer coating of the protective sheath. At the same time between the heat-insulating layer of polyurethane foam with centering supports and the outer polymer coating of the protective shell is a metal protective shell. In addition, the proposed pipe is made waterproofing coating of the ends of the heat-insulating layer of polyurethane foam with centering supports together with a metal protective sheath.

It is preferable that the metal sheath is made of steel.

Also in the pipeline element can be applied internal polymer coating, or external polymer coating to the heat-insulating layer of polyurethane foam with centering supports, or conservation coating, or thermal indicator coating of the end sections.

The claimed technical solution is illustrated FIG. 1-2

FIG. 1 shows an example of the proposed solution - a steel pipe that is heat-insulated with an outer polymer coating;

FIG. 2 shows an example of the proposed solution - a steel pipe that is heat-insulated with an outer polymer coating and with an internal polymer coating;

In the figures, the positions denote the following elements:

1 - Steel pipe (pipeline element),

2 - External steel protective sheath (metal protective sheath),

3 - outer polymer coating of the protective shell,

4 - Polyurethane foam insulation layer,

5 - Centering support,

6 - External polymer coating of steel pipe,

7 - internal polymer coating of steel pipe,

8 - External conservation or thermal indicator coating of steel pipe end sections,

9 - Waterproofing coating ends.

For laying underground thermal routes, steel heat-insulated pipes in a protective polyethylene sheath are used (Fig. 1). As a shell material, as a rule, high, medium or low density polyethylene is used. In the case of laying heat pipelines in the conditions of the Far North (production up to minus 40 ° C, temperature of transportation, storage and operation up to minus 60 ° C) there is a need for a protective sheath, which has high mechanical strength at negative temperatures (polymers, as is known, become brittle and easily destroyed by small mechanical effects during transportation, loading and unloading operations). The solution is to manufacture heat-insulated steel pipes in a metal (in particular steel) sheath 2 (Fig. 1) with an outer polymer coating of the sheath 3 (Fig. 1).

Thus, for the embodiment shown in FIG. 1, a heat-insulating layer of polyurethane foam 4 with centering supports 5, then a steel protective sheath 2 and then a layer of outer polymer coating of the protective sheath 3 are applied to the steel pipe.

Polymer coating 3 protects the pipeline during underground installation for the entire period of operation, and the steel sheath 2 has an increased resistance to negative temperatures and mechanical damage and maintains the insulation resistance to external influences at temperatures down to minus 50 ° C.

An additional difference is the waterproofing coating of 9 ends of thermal insulation together with a steel sheath to isolate polyurethane foam from external factors (wetting by water, destruction from solar radiation by ultraviolet radiation) during transportation, storage of insulated pipes.

The embodiments shown in FIG. 2, provide for the possibility of applying the inner polymer coating 7 (Fig. 2) of the steel pipe, the outer polymer coating 6 (Fig. 2) of the steel pipe, preservation or thermal indicator 8 (Fig. 2) coating the end sections.

Above, the main features of the pipe are thermally insulated with an outer polymer coating, but it is obvious to any person skilled in the art that, based on the disclosed data, variations of pipes with additional layers that do not affect the claimed technical result can be created.

Claims (5)

1. A heat-insulated pipe with an outer polymer coating containing a pipeline element and successively located above it: a heat-insulating layer of polyurethane foam with centering supports that ensure the coaxiality of the pipeline element, and an outer polymer coating of a protective sheath, characterized in that between the heat-insulating layer of polyurethane foam with centering The metal protective sheath is located with the supports and the outer polymer coating of the protective sheath; waterproofing coating holds the ends of the foam insulation layer with centering supports together with a metal protective sheath. 2. Pipe under item 1, characterized in that the metal protective sheath is made of steel. 3. A pipe according to claim 1, characterized in that an internal polymer coating is applied to the pipeline element. 4. A pipe according to claim 1, characterized in that an external polymer coating is applied on the pipeline element to a heat-insulating layer of polyurethane foam with centering supports. 5. A pipe according to claim 1, characterized in that an external conservation or thermal indicator coating of the end sections is applied on the pipeline element.

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