RU203702U1 - HEAT INSULATING DEVICE FOR PIPELINE - Google Patents

Abstract

The claimed utility model relates to thermal insulation devices for thermal insulation of various types of pipelines. The task to be solved by the claimed utility model is to increase the service life of the thermal insulation by preventing deformations of the thermal insulation under non-vertical and rotating loads, as well as to simplify the design of the device, which facilitates and accelerates its installation. on the pipeline. The proposed design of the sealing device solves the problem.

Description

The claimed utility model relates to thermal insulation structures for thermal insulation of various types of pipelines and other devices in various fields of industry, agriculture, buildings, structures.

An analogue of the claimed utility model is a heat-insulating device consisting of a layer of heat-insulating material and a protective coating containing an insert located in the upper part of the covering (part of the covering opposite to the part of the covering facing the earth's surface), while the insert is made with a profile that is inconvenient for walking, complicating pedestrian movement along the pipe (see RF patent No. 2715949, IPC F16L 59/10, 2020). The essential features of the analogue "layer of heat-insulating material, protective coating" coincide with the essential features of the claimed utility model.

The disadvantage of the analogue is the complexity of pipeline maintenance, some elements of which (requiring periodic maintenance) can only be reached by walking along the pipe (and you must carry tools and devices with you).

The closest analogue of the claimed utility model is a heat-insulating device for a pipeline containing a heat-insulating layer of an elastically deformable material and a two-part protective coating placed outside the heat-insulating layer, and the heat-insulating layer contains elements (abutting against the pipeline support of the protective coating), limiting its deformation under compressive loads, while the protective coating is made sectional along the length of the pipeline and corrugated (see RF patent No. 192200, IPC F16D 59/10, 2019). The essential features of the closest analogue "a heat-insulating layer made of an elastically deformable material, a two-part protective coating located outside the heat-insulating layer, the heat-insulating layer contains supports of a protective coating, the protective coating is sectional along the length of the pipeline, the protective coating is corrugated" coincide with the essential features the claimed utility model.

The disadvantages of the closest analogue are the complexity of manufacturing the device on the pipeline (it is required to make holes for the support elements and the placement of elements in them), as well as the possibility of uneven and unequal shift of the support elements with asymmetric (non-vertical) and shock loads on the thermal insulation device, which leads to to a violation of the configuration of thermal insulation and, as a consequence, the loss of a significant part of the thermal insulation properties.

The problem to be solved by the claimed utility model is to increase the service life of the thermal insulation by preventing deformations of the thermal insulation under non-vertical and shock loads, as well as to simplify the design of the device, which facilitates and accelerates its installation on the pipeline.

To achieve the specified technical result in a heat-insulating device for a pipeline, containing a heat-insulating layer of an elastically deformable material, a two-part protective coating located outside the heat-insulating layer and made corrugated sectionally along the length of the pipeline, supporting elements of the protective coating abutting the pipeline, while each section of the protective coating contains three support elements, one of which is located in the upper (opposite surface of the earth) part of the heat-insulating device, and the other two are located on the sides of the heat-insulating coating (on the sides of the pipeline), and each support element includes a U-shaped metal brackets a flat support on which a protective coating is fixed, while the flat support is placed longitudinally to the pipeline, and the U-shaped brackets are located transversely to the pipeline, and a heat-insulating layer of elastically deformable material in the upper (opposite the lower surface of the earth) of the part of the heat-insulating device is made double.

Essential features of the claimed utility model “each section of the protective coating contains three supporting elements, one of which is located in the upper part of the heat-insulating device, and the other two are located on the sides of the heat-insulating device, each supporting element includes a flat support equipped with U-shaped metal brackets abutting the pipeline, on which a protective coating is fixed, a flat support is placed longitudinally to the pipeline, and U-shaped brackets are located transversely to the pipeline, the heat-insulating layer of elastically deformable material is doubled in the upper part of the heat-insulating device "are distinctive from the features of the closest analogue.

FIG. shown is a heat-insulating device mounted on a pipeline (cross-section).

The heat-insulating device includes a heat-insulating layer 2 placed on the pipeline 1, outside of which a protective coating 3 is placed. The heat-insulating layer is made of an elastically deformable material under assembly loads, for example, basalt fiber, mineral wool, various non-woven materials, and the like. In the upper part of the heat-insulating device, the heat-shielding layer is made double, while maintaining the thickness of the heat insulation (due to elastic deformation). The protective coating is made corrugated (in Fig. Corrugations are not shown), while the corrugations are placed around the circumference of the heat-insulating device transversely to the pipeline. The protective coating is made in sections along the length of the pipeline; the connection of the sections can have a different design. The protective cover consists of two parts, the upper part 4 and the lower part 5, connected to each other with an overlap ("overlap"). The protective cover can be made of corrugated sheet metal or other material. The protective coating is fixed to the supporting elements 6 (for example, with self-tapping screws), including U-shaped metal brackets 7, abutting against the pipeline, and a flat support 8 (for example, wooden) fixed to the brackets. Each flat support can contain 2, 3 or more U-shaped brackets fixed with a flat support, for example, self-tapping screws, bolts, etc. One support element is located in the upper part of the heat-insulating device (in the upper part of the protective coating), and the other two are located on opposite sides of the heat-insulating device in the areas of connection of the parts of the protective coating. Both parts of the protective cover are fixed to these laterally positioned support elements. Flat supports are located longitudinally to the pipeline axis, and U-shaped brackets are transverse to it.

A specific example of the claimed utility model is the STU heat-insulating device, the heat-insulating layer of which is made of Knauf-type material, the protective coating for diameters from 600 mm to 1600 mm is made of galvanized steel 0.5 mm thick with a corrugation wave height from 12 mm to 14 mm , wave pitch from 42 mm to 44 mm, corrugation top radius from 10 mm to 12 mm. Flat supports are made of boards with three U-shaped brackets each.

The claimed heat-insulating device makes it possible not only to exclude the penetration of the heat-insulating layer and its "sliding" into the lower part of the pipeline when people walk through the pipeline, but also excludes, due to the U-shaped brackets, the possibility of shifting the supporting elements with a variety of non-vertical and other significant (shock) loads on thermal insulation (walking off-center of the pipeline, asymmetric snow-ice load, falling of various objects on the pipeline, etc.). As a result, deformation of the thermal insulation is prevented, which increases its service life. Also, it is not required to make special holes in the heat-insulating layer for supporting elements, since the U-shaped staples easily pierce nonwoven materials during assembly loads. As a result, the design of the heat-insulating device is simplified and its installation is accelerated.

Claims (1)

A heat-insulating device for a pipeline, including a heat-insulating layer of an elastically deformable material, a two-part protective coating placed outside the heat-insulating layer and made corrugated sectionally along the length of the pipeline, supporting elements of the protective coating abutting the pipeline, characterized in that each section of the protective coating contains three support elements, one of which is located in the upper part of the heat-insulating device, and the other two - on the sides of the heat-insulating device, each support element includes a flat support equipped with U-shaped metal brackets abutting against the pipeline, on which a protective coating is fixed, while a flat support is placed longitudinally to the pipeline, and U-shaped brackets are placed transversely to the pipeline, and the heat-insulating layer of an elastically deformable material is doubled in the upper part of the heat-insulating device.

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