RU105709U1 - HEATED PIPE - Google Patents

Abstract

 1. A heat-insulated pipe, consisting of two concentrically arranged pipes (heat-insulated and waterproof), at the ends of which are plugs, characterized in that gas is used as heat-insulating material, as the material with the lowest thermal conductivity compared to other materials, the gas gap between the pipes is fixed due to fasteners periodically filling the space between them. ! 2. The heat-insulated pipe according to claim 1, characterized in that the annular gap between the pipes is filled with gas having a lower thermal conductivity than air (Ar, Xe, Kr and other gases). ! 3. The heat-insulated pipe according to claim 1, characterized in that the annular gap between the pipes is filled with gas having the ability to absorb thermal radiation of the internal hot pipe (CO2).

Description

The utility model relates to pipe insulation and can be used in pipelines, process units, residential and industrial buildings.

Known foam tube [1], which is worn on a pipe in need of thermal insulation. The foam tube has an outer and inner surface, the inner surface is covered with an additional layer of connecting fibers. The fibers are evenly distributed on the inner surface of the pipe and cover from 2 to 20% of its inner surface.

The disadvantage of this design is the complex structure of the heat-insulating layer, in which the fibers are an integral part of the overall heat-insulating layer, the main function of which is the foam tube. The absence of the outer shell of the foam pipe does not allow to avoid external influences in the form of moisture penetration and mechanical compression of the main foam layer.

Closest to the invention is a thermally insulated pipe [2], including a sheath, centralizers with centering elements installed in the annular gap between the sheath and the pipe filled with insulating material and ring plugs mounted on the ends. The centralizer housings are made in the form of a belt, tightened on the pipe by a lock, while the centering elements of adjacent centralizers are staggered.

The disadvantage is the lack of axial symmetry of the centralizers around the pipe, which contributes to the occurrence of mechanical stresses in the structure, reduces its strength characteristics. The massiveness of the centralizers makes it possible to transfer heat along the body-insulating structure, causing heat loss to the environment. The need for rigid fixation of the position of the centralizer along the length and circumference of the pipe also worsens the design.

The objective of the utility model is to reduce the heat flux from the internal hot pipe into the surrounding space, increase the strength characteristics of the heat-insulating structure.

The problem is solved by creating a thermally insulated pipe, consisting of two concentrically arranged pipes (thermally insulated and waterproof), at the ends of which there are plugs, characterized in that gas is used as a heat insulating material, as a material with lower thermal conductivity compared to other materials, a gas gap between the pipes is fixed by fasteners, periodically filling the space between them.

The annular gap between the pipes is filled with gas having a lower thermal conductivity than air (Ar, Xe, Kr and other gases).

The annular gap between the pipes is filled with gas having the ability to absorb the thermal radiation of the internal hot pipe (CO ₂ ).

The drawing shows a thermally insulated pipe, which contains the shell 1, the pipe 2, the annular gap between the shell and the pipe 3 is filled with gas, the pipe and the shell are fixed by fasteners 4 located between them, having a periodic structure of filling the space. At the ends of the pipe, plugs 5 are installed.

As fastening systems of a periodic cellular structure, details, structures and elements occupying a very small amount of space can be used, while they are so distributed in it that they ensure uniform mechanical load on the pipe.

An example of a utility model is a structure in which a metal pipe for which thermal insulation is carried out is placed in a protective waterproofing plastic pipe. A mesh-net is placed in the annular gap between the metal and plastic pipes, which acts as a fastener and a retainer for supporting the pipes relative to each other (centralizer).

Bibliographic list

1. Patent No. 2318664, Germany

2. Patent No. 2221184, Russian Federation

Claims (3)

1. A heat-insulated pipe, consisting of two concentrically arranged pipes (heat-insulated and waterproof), at the ends of which are plugs, characterized in that gas is used as heat-insulating material, as the material with the lowest thermal conductivity compared to other materials, the gas gap between the pipes is fixed due to fasteners periodically filling the space between them. 2. The heat-insulated pipe according to claim 1, characterized in that the annular gap between the pipes is filled with gas having a lower thermal conductivity than air (Ar, Xe, Kr and other gases). 3. The heat-insulated pipe according to claim 1, characterized in that the annular gap between the pipes is filled with gas having the ability to absorb thermal radiation of the internal hot pipe (CO ₂ ).