RU202736U1 - THERMAL INSULATION CONSTRUCTION - Google Patents

Abstract

The utility model relates to heat-insulating products used for the insulation of pipelines and other devices in various fields of industry, agriculture, residential and other buildings and structures. The purpose of the claimed utility model is to reduce the possibility of destruction and puncture of the upper part of the heat-insulating structure on horizontal and inclined sections of pipelines from - due to gravitational influences. The heat-insulating structure includes a layer of fibrous heat-insulating material having an inner and outer surface. On the part of the heat-insulating structure opposite to the surface of the earth, in a layer of fibrous heat-insulating material, supports are placed made of material that is not deformable under operational gravitational loads. On the side of the outer surface of the heat-insulating material, on the opposite surface of the earth of a part of the heat-insulating structure, there is a coating amplifier fixed with supports in the form of an overlay in the form of a part of a cylindrical surface. the impact of a vertically concentrated force. At the same time, the thermal insulation has a simple structure and can be easily mounted on the pipeline.

Description

The claimed utility model relates to heat-insulating products used to insulate pipelines and other devices in various fields of industry, agriculture, residential and other buildings and structures.

An analogue of the claimed utility model is a heat-insulating product made of sheet heat-insulating material, consisting of interconnected successively alternating insulating elements of an elongated shape made of an elastically deformable material and a material that is non-deformable under assembly loads, enclosed in a shell of two fiberglass sheets (see RF patent No. 34688, IPC F16L 59/02, 2003). The essential features of the analogue “sheet heat-insulating material, elastically deformable material, non-deformable material under load” coincide with the essential features of the claimed utility model.

The disadvantage of the analogue is the complexity of manufacturing the heat-insulating structure, as well as the lack of orientation of the elements that are not deformed during installation loads relative to the opposite earth surface of the heat insulation surface on horizontal sections of pipelines and inclined sections of pipelines, the slope of which allows the movement of pedestrians (installers, maintenance personnel, etc.). As a result, the surface of the insulation opposite to the ground under the gravitational effect (human weight, weight of ice and snow) is crushed, the insulation can be broken and become unusable.

Another analogue of the claimed utility model is a heat-insulating product made of an insulating mat, including a fiberglass sheath filled with a loose mass of ceramic fibers, and containing tie wires threaded through the ends of the sheath and wrapped around hooks to hold the edges in a closed position to cover the pipe or flange (see UK Application No. 2133124, IPC F16L 59/05, 1984). The essential features of the analogue "insulating mat, fiberglass sheath, tie wires" coincide with the essential features of the claimed utility model.

The disadvantage of the analogue is the possibility of puncture and destruction of the upper part of the heat-insulating structure on horizontal and inclined sections of pipelines due to gravitational effects (pedestrians, snow, ice).

The closest analogue of the claimed utility model is a heat-insulating structure (heat-insulating product), consisting of a layer of fibrous heat-insulating material, which has an inner surface designed to adjoin the heat-insulated surface, and an outer surface (see RF patent No. 139481, IPC F16L 59/14, 2013). The essential features of the closest analogue "layer of fibrous heat-insulating material, inner surface, outer surface" coincide with the essential features of the claimed utility model.

The disadvantage of the closest analogue is also the possibility of puncture and destruction of the upper part of the heat-insulating structure on horizontal and inclined sections of pipelines due to gravitational effects (pedestrians, snow, ice).

The task to be solved by the claimed utility model is to reduce the possibility of destruction and penetration of the upper part of the heat-insulating structure on horizontal and inclined sections of pipelines due to gravitational influences by supplying the part of the heat-insulating structure to the opposite surface of the earth with supports made of material that is not deformed under gravitational action.

To achieve the specified technical result in a heat-insulating structure, including a layer of fibrous heat-insulating material having an inner and an outer surface, on the part of the heat-insulating structure opposite to the earth's surface, in the layer of fibrous heat-insulating material there are supports made of material that is not deformed under operational gravitational loads, and from the side On the outer surface of the heat-insulating material, in this part of the heat-insulating structure, there is a coating amplifier fixed with supports in the form of a patch in the form of a part of a cylindrical surface.

Essential features of the claimed utility model “on the part of the heat-insulating structure opposite to the surface of the earth, in the layer of fibrous heat-insulating material there are supports made of material that is not deformed under operational gravitational loads, and on the side of the outer surface of the heat-insulating material in this part of the heat-insulating structure there is a coating amplifier fixed with the supports. in the form of a metal plate in the form of a part of a cylindrical surface "are distinctive from the features of the closest analogue.

The thermal insulation structure consists of a layer of fibrous thermal insulation material, for example, mineral slabs, glass wool slabs, etc. The outer and inner surfaces of the layer can be covered, for example, with a sheet of fiberglass, foil tape, and the like. On the opposite surface of the earth, a part of the heat-insulating structure, in a layer of fibrous heat-insulating material, there are supports made of a material that does not deform under the influence of human weight, ice and snow (for example, wood, foamed polymer, etc.). The supports can have a rectangular or other cross-section and are placed radially around the circumference of the heat-insulating structure (radially to the surface of the insulated object). A cylindrical metal plate (as part of a cylindrical surface) is placed on the outer surface of the layer of fibrous thermal insulation material (or over the outer surface coating, if any). The plate can be made, for example, of polymer or galvanized steel and have a flat, corrugated or other surface. The plate is fixed with supports, for example, using self-tapping screws. The thermal insulation structure can be duplicated, that is, it is made according to the principle of "pipe in pipe", while having two layers of fibrous thermal insulation material. In this case, the supports of the outer layer of the thermal insulation structure abut against the metal plate of the inner layer.

The claimed heat-insulating structure allows a person to move directly along an insulated pipeline without the risk of puncturing the insulation, since it has high rigidity when exposed to a vertically concentrated force, which is a pedestrian load and loads from snow, ice and other foreign objects. At the same time, the thermal insulation has a simple design and can be easily installed on the pipeline.

Claims (1)

Heat-insulating structure, including a layer of fibrous heat-insulating material having inner and outer surfaces, characterized in that on the part of the heat-insulating structure opposite to the earth's surface, in the layer of fibrous heat-insulating material there are supports made of material that is not deformable under operational gravitational loads, and on the side of the outer surface of the heat-insulating material on the opposite surface of the earth of the part of the heat-insulating structure there is a coating amplifier fixed with the supports in the form of an overlay in the form of a part of a cylindrical surface.