RU175944U1 - THERMAL INSULATION SEGMENT WITH TILTED LATERAL EDGE - Google Patents

Abstract

The utility model relates to the field of production of technical thermal insulation and is used for thermal insulation of various objects with both flat and curved surfaces, as well as for thermal insulation of pipelines for various purposes. The heat-insulating segment contains a sheet heat-insulating element 1 having outer 2 and inner 3 surfaces located equally spaced from each other, as well as side faces 4, 5, at least one of which is a connecting face designed to connect to the other side face of any heat-insulating element. The connecting face is not perpendicular to the outer 2 and inner 3 surfaces. The main technical result is an increase in the strength of the butt joint between the joined side faces. 5 cp f-ly, 3 ill.

Description

The utility model relates to the field of production of technical thermal insulation and can be used for thermal insulation of various objects with both flat and curved surfaces, as well as for thermal insulation of pipelines for various purposes.

A known segment is heat-insulating, containing sheet heat-insulating element having outer and inner surfaces located equidistant from each other, as well as side faces, at least one of which is a connecting face designed to connect with another side face of any heat-insulating element (patent RU 2379576, IPC F16L 59/02, publ. 20.01.2010). The lateral sides of the known heat-insulating element are perpendicular to its outer and inner surfaces.

One of the disadvantages of this known technical solution is that the perpendicular arrangement of the side faces causes their direct butt joint, the strength of which may be insufficient. In addition, such a direct connection requires greater accuracy when cutting a heat-insulating element and gluing it with another heat-insulating element.

The objective of this utility model is to obtain a heat-insulating segment that would be devoid of the disadvantages of the known segment.

The solution to this problem is achieved by the fact that in the heat-insulating segment containing a sheet heat-insulating element having outer and inner surfaces located equally spaced from each other, as well as side faces, at least one of which is a connecting face designed to connect to the other side face of any heat insulating element, according to this utility model, the connecting face is not perpendicular to the outer and inner surfaces.

The non-perpendicularity of the connecting side face of the heat-insulating element to its outer and inner surfaces determines the main technical result, which consists in increasing the strength of the joint of the butt joint between the connected side faces due to the larger area of the connected (glued) surface. In addition, such an oblique joining seam makes it possible to reduce accuracy requirements when cutting a heat-insulating element and gluing it with another heat-insulating element or gluing opposite connecting side faces of the same heat-insulating element with each other. At the same time, installation time is also reduced, labor costs for installation are reduced, waste and trimming of insulation are reduced to zero. When supplying heat-insulating products in a flat form, the useful use of volume increases during the transportation and storage of products and, as a result, logistic costs are reduced.

The connecting face can be made self-adhesive to simplify and speed up the process of installing thermal insulation on an insulated object.

A protective coating may be applied to the outer surface of the heat-insulating element, which may be inflated with at least one of the side faces of the heat-insulating element. The inner surface of the inlet portion of the protective coating and the inner surface of the heat-insulating element can also be made self-adhesive.

The present utility model is illustrated by drawings.

FIG. 1 - one of the embodiments of the claimed insulating segment, a perspective view.

FIG. 2 - the same, longitudinal section.

FIG. 3 - an embodiment of the claimed heat-insulating segment by rolling it into a tubular shape, a cross section.

The claimed heat-insulating segment contains a sheet heat-insulating element 1 (Fig. 1, 2) with equidistant from each other (parallel) outer 2 and inner 3 surfaces, as well as with side faces. The inner surface 3 is intended for its interface with the surface of the insulated object. Opposite side connecting edges 4, 5, intended for connection with the side face of another heat-insulating element (not shown in the drawings), are not perpendicular to the outer 2 and inner 3 surfaces, i.e. at an angle α (Fig. 2), not equal to 90 °. These inclined side connecting faces 4, 5 can be made self-adhesive by applying an adhesive layer to them with a protective film that is removed immediately before connecting the side faces 4, 5 with the side face of another heat-insulating element.

On the outer surface 2, a protective coating 6 is applied, made, for example, of aluminum foil or fiberglass, impregnated with silicone rubber (siliconized fiberglass). The coating 6 is adhered to the outer surface 2, for example, by means of glue (for example, glue based on chloroprene rubber) or an adhesive film. To simplify the process of gluing the coating 6 to the outer surface 2, the coating 6 can be applied with an inlet 7 on one of the side connecting faces 4 (Fig. 1, 2) or on both sides 4, 5 (not shown in the drawings). The inner surface of the inlet 7 can be made self-adhesive, similar to the self-adhesive embodiment of the side connecting faces 4, 5. In addition, the coating 6 can be applied both with the inlet 7 shown in the drawings, and with an inlet on one or both side faces 8 adjacent to the side faces 4, 5 (not shown in the drawings).

The heat-insulating element 1 can be made of any material having heat-insulating properties, for example, of foamed synthetic rubber or mineral wool. The inner surface 3 of the element 1 can also be made self-adhesive like a self-adhesive embodiment of the side connecting faces 4, 5.

As shown in FIG. In the third embodiment, the sheet heat-insulating element 1 is folded in the shape of a pipe so that one side connecting face 4 is aligned and subsequently connected to the other side connecting face 5, and the inlet 7 overlaps the seam between these connecting faces.

Claims (6)

1. The heat-insulating segment, containing a sheet of heat-insulating element having outer and inner surfaces equally spaced from each other, as well as side faces, at least one of which is a connecting face, designed to connect to the other side face of any heat-insulating element, characterized in that the connecting face is not perpendicular to the outer and inner surfaces. 2. The segment according to claim 1, characterized in that the connecting face is made self-adhesive. 3. The segment according to claim 1, characterized in that a protective coating is applied to the outer surface of the heat-insulating element. 4. The segment according to claim 3, characterized in that the protective coating is applied with an inlet on at least one of the side faces of the heat-insulating element. 5. The segment according to claim 4, characterized in that the inner surface of the inlet portion of the protective coating is self-adhesive. 6. The segment according to claim 1, characterized in that the inner surface of the heat-insulating element is self-adhesive.

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