RU161701U1 - THERMAL INSULATION PRODUCT - Google Patents

Abstract

The utility model relates to heating systems for residential and other buildings, more specifically, to insulating structures intended primarily for insulation of various kinds of pipelines to ensure energy saving, and can be used for thermal insulation of pipelines in all industries and agriculture. The heat-insulating product contains a heat-insulating layer made of insulating elements enclosed in a shell. New is that the insulating elements additionally contain elements that limit the deformation of these insulating elements under compressive loads. The technical result consists in eliminating crushing of the insulating layer when exposed to external compressive forces. 3 ill.

Description

The utility model relates to heating systems for residential and other buildings, more specifically, to insulating structures intended primarily for insulation of various kinds of pipelines to ensure energy saving, and can be used for thermal insulation of pipelines in all industries and agriculture.

As you know, heat-insulating products mounted on pipelines experience a variety of external loads, leading to uneven wear of these heat-insulating products and a significant deterioration in thermal insulation, especially in the upper part of the pipes, that is, in the part that is the most remote from the supporting surface. One of the most common negative factors is people walking through pipelines. The reasons for finding people on the pipeline are varied: children's games, the use of pipelines instead of pedestrian routes, installation works of higher objects located nearby, etc. The consequences of such actions for a thermally insulated pipeline are always negative - crushing of the insulating layer covering the upper part of the pipe circumference, and, as a result, a decrease in the efficiency of thermal insulation.

Therefore, in order to avoid the negative effects of external compressive forces on the heat-insulating layer and to extend the effective life of the heat-insulating product, it is necessary to somehow reduce the effect of these forces on the heat-insulating layer or redistribute them.

Thermal insulation products for various pipelines are widely known in the prior art (see, for example, application GB No. 213124, published 1984, or RU 34688, published 2003, or RU 53751, published 2006, etc.) containing an insulating layer and a sheath, which cover the pipe all around.

The disadvantages of the known technical solutions include strong collapse and practical failure of the insulating layer covering the upper part of the pipe circumference when exposed to external compressive forces, for example, when people are walking through the pipeline.

The task to which the claimed utility model is directed is to increase the life of the insulating product.

The technical result achieved by the implementation of the task is to eliminate the collapse of the insulating layer when exposed to external compressive forces.

The technical result is achieved due to the fact that the insulating product contains a heat-insulating layer made of insulating elements enclosed in a shell. New, according to the proposed utility model, is that the insulating elements additionally contain elements that limit the deformation of these insulating elements under compressive loads.

Equipping the insulating elements with elements that limit the deformation of these insulating elements under compressive loads allows eliminating the collapse of the insulating elements when exposed to external compressive forces, which ensures the necessary efficiency of the insulating layer, increasing the life of the insulating product.

In the future, the utility model will be described in detail in the description section "Implementation of the utility model" and in the figures, which depict:

- FIG. 1 is a schematic view of a heat insulating product,

- FIG. 2 is a section AA in FIG. one,

- FIG. 3 is a schematic cross-sectional view of the proposed heat-insulating product installed on a previously insulated pipe.

It should be noted that the embodiment of a thermal insulation product for repeated thermal insulation (for restorative thermal insulation) is shown below. Moreover, in another embodiment, the number of insulating elements can be increased to cover the entire circumference of the pipe.

The heat-insulating product contains a heat-insulating layer consisting of insulating elements 1, in particular, elongated bars made of a material that is elastically deformable during installation loads. As such material, basalt felt, mineral wool, various fibrous nonwoven materials, etc. can be used. The insulating elements 1 are enclosed in a shell 2, which covers their side surfaces. The shell 2 holds the insulating elements 1 at a small distance from each other and consists of two flexible sheets, for example, fiberglass, fiberglass, basalt fabric, fiberglass, fiberglass, foil plastic, etc. One of the flexible sheets is placed on the surfaces of each of the insulating elements 1, opposite insulated surface, and can be additionally waterproofed, reinforced with metal foil or protected by any other suitable method. Another sheet is placed on the remaining three side surfaces of each of the insulating elements 1. In the spaces between the insulating elements, the flexible sheets are fixed to each other in any accessible and reliable way, for example, with glue and / or firmware, etc. In areas free of insulating elements 1, it is also advisable to fix flexible sheets to each other in any accessible and reliable way, for example, with glue. By fixing the originally specified distance between the insulating elements 1, flexible sheets interconnected in the spaces between the insulating elements leave a sufficient degree of freedom for the insulating elements, allowing them to take the necessary shape in their cross section when mounted on an insulated object.

The heat-insulating product may contain bandage elements 3 made, for example, of wire or glass bandage.

The heat-insulating product may contain an element 4 (for example, a board) designed to improve the fixation of the shell overlap at the end of the installation of the heat-insulating product on the pipe 5. The overlap can be fixed by any available method, for example, brackets, screws, glue, etc.

Installation of the proposed product can be carried out on a pipe 5 (pipeline), equipped with partially worn thermal insulation 6 or pipe 5 may not contain previously installed thermal insulation (not shown).

According to the proposed technical solution, elements are provided that limit the deformation of the insulating elements 1 under compressive loads. Limiting the deformation of the insulating layer is relevant precisely for that part of the insulating elements 1, which are located in the zone of occurrence of external compressive forces. Depending on the operating conditions, elements that limit the deformation of the insulating elements 1 can be equipped with all of the insulating elements 1 or some of them, for example, those insulating elements 1 that surround the pipe 5 in the upper part of its circumference.

To limit the deformation of the insulating elements 1, supports 7, gain bars 8 and strip 9 are provided.

Supports 7 are placed in an insulating element 1 and can be made of any suitable solid and rigid material. The reinforcement plate 8 can be made of any suitable rigid material and is placed on the upper surface of the insulating element 1 between the insulating element 1 and one of the flexible sheets of the sheath 2. A strip 9 is laid on top of the sheath 2 along the reinforcement plate 8.

The strip 9 and the reinforcement plate 8 are fastened together by fastening elements 10 (for example, screws, nails, staples, etc.), fixed in supports 7.

Thermal insulation product for pipes works as follows.

The proposed product is placed on the pipe in a known manner for its thermal insulation. When exposed to external compressive loads on the heat-insulating product, in particular, from people walking through the pipeline, these loads fall on the strip, reinforcement strips and supports, which makes it possible to evenly distribute the load across these elements and exclude the effect of this load on the insulating elements, preventing the heat-insulating layer from crushing . High resistance of the strip (steel strip) to wear additionally increases the service life of the insulating product.

Thus, equipping the insulating elements with elements that limit the deformation of these insulating elements under compressive loads allows increasing the life of the insulating product by eliminating the collapse of the insulating layer when exposed to external compressive forces.

Claims (1)

A heat-insulating product containing a heat-insulating layer made of insulating elements enclosed in a shell, characterized in that the insulating elements additionally contain elements that limit the deformation of these insulating elements under compressive loads.

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