RU34688U1 - Thermal insulation sheet material - Google Patents

Description

SHEET HEAT-INSULATING IPC 16 L 59/02 MATERIAL

The claimed utility model relates to sheet heat (cold) insulating materials intended for use as thermal insulation or cold insulation of various non-planar objects, such as pipelines, shells, etc.

An analogue of the claimed utility model is sheet heat-insulating material (flexible and lightweight mat), consisting of corrugated solid material, not deformable 1

at mounting loads (foam) reinforced with a mesh and attached to the film (see application FR No., IPC V 32 V 5/18, 1986). The essential features of the analogue “consisting of a solid material that is not deformable during installation loads coincide with the essential features of the claimed utility model.

The disadvantage of the analogue is the inconvenience of transportation and storage, the complexity of installation, the inability to quickly access the damaged section of the pipe, low

maintainability, lack of the possibility of reusable use for various sizes of pipes, lack of the possibility of gentle repair repairs without dismantling the old insulation, lack of the ability to isolate complex configuration systems. Another analogue of the claimed utility model is sheet heat-insulating material (insulating mat) for pipelines and flanges, consisting of a fiberglass shell filled with a loose mass of ceramic fibers, having tie wires (see application GB No. 2 133 124, IPC F 16 L 59/05, 1984). The essential features of the analogue "consisting of a fiber-clad shell are the same as the essential features of the claimed utility model.,,.

The disadvantage of the analogue is the insufficient strength characteristics (incompatible with the weight of an adult), the complexity of installation, low maintainability, the inability to quickly access the damaged section of the pipeline, the lack of the possibility of reconditioning without dismantling the old insulation, the complexity of processing with cutting tools (for fitting to places of complicated configuration - supports, branches, locking devices, etc.).

The prototype of the claimed utility model is material from interconnected insulating elements of an elongated shape made of elastically deformable material and covering the surface of the pipe (see application GB No. 2 190 167, IPC F 16 L 59/02, 1987). The essential features of the prototype “material from interconnected

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elongated insulating elements of elastically deformable material coincide with the essential features of the claimed utility model.

The disadvantage of the prototype is the complexity of installation, the complexity of transportation and storage of material, insufficient strength characteristics, lack of quick access to the damaged section of the pipe, insufficient maintainability, lack of reusability for various pipe sizes and for isolating systems of complex configuration.

The task to be solved by the claimed utility model is to simplify the installation of insulation, transportation and storage, increase the strength characteristics of the material (to a value comparable to the weight of an adult), provide quick access to the damaged section of the pipe (lead), increase maintainability, ensure reusable for various pipe sizes and for the isolation of complex configuration systems (pipe bundles, etc.).

To achieve the technical result, a sheet of heat-insulating material, consisting of interconnected insulating elements of an elongated shape made of elastically deformable material, additionally contains elements of an elongated form made of a material that is not deformable under mounting loads, which are successively alternated with elements of elastically deformable material under mounting loads, and fiberglass the shell on the side surfaces of alternating elements, while the shell consists of two glass fibers sheets, one of which is fixed to the elongated elements bokvyh surfaces opposite to the surface facing to the object being insulated and the other fixed to the rest of the side surfaces of the elongated elements.

The essential features of the claimed utility model are “elongated elements made of a solid material that is not deformable under mounting loads, which successively alternate with elements of elastically deformable material under mounting loads, and a fiberglass sheath along the side surfaces of alternating elements, while the sheath consists of two fiberglass sheets, one of which is fixed on the lateral surfaces of elongated elements opposite to the surfaces facing the insulated object, and the other is fixed on the remaining side surfaces of the elongated elements are distinctive from the features of the prototype. 1

Sheet heat-insulating material consists of insulating elements (bars)

and elements of material that is not deformable during assembly fittings. For example, basalt felt, mineral wool, various non-woven materials, porous rubber, etc. can be used as material that can be deformed during installation loads. Rigid foams, polyurethane foams, and other solid heat-insulating materials can be used as non-deformable material during mounting loads. The elements are enclosed in a fiberglass cladding that protects their side surfaces and does not affect the end surfaces. The shell fixes the element to each other by flashing the shell and the elements with glass fibers and consists of fiberglass sheets. As fiberglass sheets can be used fiberglass, fiberglass, fiberglass, etc. One of the fiberglass sheets is fixed on the surface of each of the heat-protective elongated elements opposite the insulated surface. Another fiberglass sheet is fixed on the remaining 3 lateral surfaces of each of the elongated elements.

The claimed material can be manufactured as follows. Prefabricated elongated elements are sequentially placed on a fiberglass sheet and fixed by flashing with fiberglass. Then, on the other lateral surfaces of el6men1X), a second fiberglass sheet is fixed by flashing with fiberglass.

To do this, the elements are successively paired in pairs in surfaces where the first sheet is already fixed (by bending this sheet in the area where the elements join), and the sheet is fixed on the side surfaces of the elements facing each other, then the second sheet is fixed on the surface of the element facing the insulated surface, fixation is repeated on the side surfaces of the elements facing each other, and again

on the surface facing the insulated surface, etc.

Haha. 1 presents a specific example of the inventive sheet material (side view). Haha. 2 shows a top view of the material.

A specific example of the claimed sheet material is the universal thermal insulation system STU, which is a carpet 15 m long, 1 m wide and 0.06 m thick. The system consists of bars 1 with a cross-section close to a square shape made of rigid foam, the hardness and strength of which ensures its non-deformability under mounting loads, as well as under the weight of an adult, and bars 2 with a cross-section close to square, made of mineral wool P-75 or P-125, elastically deformable during mounting heat kah. The shell 3 of the system consists of two glass fibers 4 and 5 of the PSXT brand, the first of which is fixed on the surfaces of 6 bars opposite the insulated surface, and the second is fixed on the surfaces of 7 and 8 bars facing each other, and surfaces 9 facing the insulated surface. The width 10 and the height 11 of each bar is 0.06 m. The bars are fixed to the casing by fiberglass parallel seams 12.

The sheet material of the claimed structure can be bent in the direction opposite to the insulated surface, without deformation of the elongated elements. This makes it easy to roll the material into a roll for transportation, for example in cardboard boxes, and when injured. This property of the material simplifies the solution of issues of storage and transportation of material. During installation, bending of the sheet towards the insulated surface requires deformation of the deformable elements. Depending on the curvature of the insulated surface, this deformation can be greater or less, which simplifies the installation of insulation on various pipe sizes and due to the elastic deformation provides the possibility of reusable use of deformable elements. The presence of alternating elements of rigid foam, the strength of which is sufficient to support the weight of an adult, and the gap between the rigid elements is 0.06 m (which is much smaller than the foot of a person), makes it possible to walk on insulation without deforming it. From the finished insulation, for example, one or several elements can be removed to the pipeline, as a result of which access to damage to the pipe (svshshg) will be provided, and then the removed elements can be installed again with the help of glue. Cement or gypsum binder, stitching, using staples, etc. as a result, quick access to the damaged section of the pipe and high maintainability are provided. In the case of a complex configuration of the insulated surface, for example, several pipes at the same time, the deformation of various deformable elements can be different within the same sheet, which allows the sheet material to take a shape that is most suitable for the shape of the insulated surface, which ensures isolation of a surface of complex curvature. e.,. (7

Claims (1)

Sheet heat-insulating material, consisting of interconnected insulating elements of an elongated shape from elastically deformable material, characterized in that the material further comprises elongated elements of material non-deformable at mounting loads, alternating sequentially with elements of elastically deformable material at mounting loads, and a fiberglass sheath the side surfaces of alternating elements, while the shell consists of two fiberglass sheets, one of which x is fixed on the lateral surfaces of the elongated elements opposite to the surfaces facing the insulated object, and the other is fixed on the remaining lateral surfaces of the elongated elements.