RU178409U1 - THERMAL INSULATION PRODUCT FROM FOAM POLYURETHANE - Google Patents

Abstract

The technical solution relates to construction and power engineering and can be used for thermal insulation of pipelines for various purposes. The device includes upper (2) and lower (3) shells, interconnected by means of grooves and ridges. Aluminum foil (4) and (5) are mounted on the inner part of the upper (2) and lower (3) shells. Also, ceramic inserts (6) are used as embedded elements to ensure a uniform air gap between the pipeline (1) and shells (2) and (3). The technical result is to increase the thermal resistance of the heat transfer of the insulating product, increasing the service life of the polyurethane foam. 1 ill.

Description

The technical solution relates to construction and heat power, namely, heat-insulating products for pipelines for various purposes.

A heat-insulating product for pipelines is known (patent RU No. 85977, IPC F16L 59/00, published on 08/20/2009), adopted as a prototype, including two half-shell shells made of heat-insulating material, an upper shell, with a groove and a crest front and rear for connecting with adjacent upper shells, with the formation of transverse docking seams, with a groove from the inside and a crest on the outside along horizontal edges and a lower shell, with a groove and crest in front and behind for connecting with neighboring lower shells, with of butt joints, with a groove on the outside and a crest from the inside along the horizontal edges, as well as openings, from one to several per one meter meter of the length of the lower shell, in its lowest part, for removing condensate from the product to the outside, fixed as a whole by means of grooves and ridges of the upper and lower shells, forming together longitudinal butt joints, around the pipeline, with a waterproofing layer, with holes matching the localization of the holes of the lower shell, and fasteners that do not coincide with the same holes iai.

The disadvantage of this product is the limitation of the use of this design in temperature to + 130 ° C. At a higher temperature, the destruction of polyurethane foam occurs. The reasons that impede the achievement of the specified technical result when using the known device include the fact that in this device there is no protective layer of the inner surface of the semi-cylindrical polyurethane foam shells.

The objective of the proposed technical solution is to reduce heat loss through pipelines and, thus, saving fuel and energy resources.

The technical result is to increase the thermal resistance of the heat transfer of the insulating product, increasing the service life of the polyurethane foam.

The specified technical result is achieved in that the heat-insulating product made of polyurethane foam contains two shells of a semi-cylindrical shape made of pouring polyurethane foam, moreover, aluminum foil is applied to the inner surface of the semi-cylindrical shells, and ceramic inserts are installed that serve as embedded elements and provide the possibility of a uniform air gap between piping and shell.

The use of aluminum foil in the design of the product allows to increase the thermal resistance of the heat transfer of the insulating product, and thus increase the service life of the polyurethane foam.

Significantly reduces the temperature and heat loss of the pipeline creating an air gap formed using ceramic inserts, which also allow to ensure uniformity of the gap.

The technical solution is illustrated by the drawing, which shows the design of the product.

The heat-insulating product made of polyurethane foam includes the upper (2) and lower (3) shells, interconnected by means of grooves and ridges. Aluminum foil (4) and (5) are mounted on the inner part of the upper (2) and lower (3) shells. Also, ceramic inserts (6) are used as embedded elements to ensure a uniform air gap between the pipeline (1) and shells (2) and (3).

The device operates as follows: a shell (3) is applied from below to a pipeline (1), on which aluminum foil (5) and ceramic inserts (6) are installed in the factory. Then, in a similar way, the shell (2) is mounted on the pipeline (1) with the applied aluminum foil (4) and ceramic inserts (6). Then the shells (2) and (3) are pulled together with fasteners (bondages, bundles, ribbons, etc.). Thus, the device is able to provide insulation of pipelines with a coolant temperature of up to + 180 ° C.

Claims (1)

A heat-insulating product made of polyurethane foam containing two half-shell shells made of pouring polyurethane foam, characterized in that aluminum foil is applied to the inner surface of the half-cylindrical shells, and ceramic inserts are installed that serve as embedded elements and provide the possibility of a uniform air gap between the pipeline and the shell .

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