RU118019U1 - THERMAL INSULATION PRODUCT - Google Patents

Abstract

A heat-insulating product containing elongated insulating elements made of an elastically deformable fibrous material, interconnected and enclosed in a sheath that covers the side surfaces of the elongated elements and consists of two flexible sheets, one of which is sealed and forms the side surfaces of the elongated elements opposite to the surfaces facing to the insulated object, and the other forms the remaining lateral surfaces of the elongated elements, characterized in that the product is provided with an additional hermetic shell made of polymeric material and placed on the lateral surfaces of the elongated elements facing the insulated object, on the side surfaces of the elongated elements opposite to the surfaces facing to the insulated object, and on the end surfaces of the elongated elements, flexible sheets are connected by an adhesive bond, and the fibers of the elastically deformable fibrous material are randomly oriented relative to the side new surfaces of elongated elements.

Description

The inventive utility model relates to sheet heat (cold) insulating products intended for heat (cold) insulation of various non-planar objects, such as pipelines, shells, etc.

An analogue of the claimed utility model is a heat-insulating product made of sheet heat-insulating material, consisting of interconnected alternating elongated insulating elements of elastically deformable material and non-deformable material during mounting loads, enclosed in a shell of fiberglass sheets fixed on the side surfaces of the elements (see RF patent No. 34688, IPC F16L 59/02, 2003). The essential features of the analogue "consisting of interconnected alternating insulating elements of an elongated shape made of elastically deformable material, a sheath of sheets" coincide with the essential features of the claimed utility model.

The disadvantage of the analogue is the lack of thermal insulation ability due to leakage of the product, which under atmospheric influences or leakage of the insulated medium leads to moisture entering the insulating elements, which sharply reduces their heat-insulating properties.

The prototype of the claimed utility model is a heat-insulating product containing elongated insulating elements of elastically deformable fibrous material, interconnected and enclosed in a shell that covers the side surfaces of the elongated elements and consists of two flexible sheets, one of which forms the side surfaces of the elongated elements opposite to the surfaces facing the insulated object, and the other forms the remaining lateral surfaces of the elongated elements, while the flexible fox t, forming the lateral surfaces of the elongated elements opposite to the surfaces facing the insulated object, is sealed, and the elastically deformable fibrous material is made with a density of 50-125 kg / m ³ and with the predominant orientation of the fibers orthogonally to the lateral surfaces of the elongated elements opposite to the surfaces facing the insulated object (see RF patent No. 2379576, IPC F16L 59/02, 2010). Salient features of the prototype “elongated insulating elements interconnected and enclosed in a shell, the shell covers the lateral surfaces of the elongated elements and consists of two flexible sheets, one of the sheets is sealed and forms the lateral surfaces of the elongated elements opposite to the surfaces facing the insulated object, another sheet forms the remaining lateral surfaces of the elongated elements "coincide with the essential features of the claimed utility model.

The disadvantage of the prototype is also the lack of thermal insulation capacity due to insufficient tightness of the product (only one of the sheets is airtight), which, under external influences, causes moisture to enter the product and reduce heat-insulating properties.

The task to which the claimed utility model is directed is to increase the thermal insulation ability of the product by ensuring its complete tightness and eliminating the possibility of moisture entering the insulating elements.

To achieve the technical result, a heat-insulating product containing elongated insulating elements of elastically deformable fibrous material, interconnected and enclosed in a shell that covers the side surfaces of the elongated elements and consists of two flexible sheets, one of which is sealed and forms the side surfaces of the elongated elements opposite to the surfaces facing the insulated object, and the other forms the remaining lateral surfaces of the elongated ele cops, equipped with an additional sealed shell made of a polymeric material and placed on the side surfaces of the elongated elements facing the insulated object, on the side surfaces of the elongated elements, opposite surfaces facing the insulated object, and on the end surfaces of the elongated elements, flexible sheets are connected by an adhesive joint and the fibers of the elastically deformable fibrous material are randomly oriented relative to the side surfaces of the elongated elements.

Salient features of the claimed utility model “additional hermetic shell made of a polymeric material and placed on the side surfaces of elongated elements facing the insulated object, on the side surfaces of the elongated elements, opposite surfaces facing the insulated object, and on the end surfaces of the elongated elements, flexible sheets connected by adhesive, the fibers of the elastically deformable fibrous material are randomly oriented relative to the side surfaces Tay elongate members "are the distinctive signs of the prototype.

A heat-insulating product consists of insulating elements (bars) of an elongated shape of a square, rectangular, trapezoidal or other section close to the indicated ones, made of a material that is elastically deformable under mounting loads. As such material, materials containing fibers can be used, for example, basalt felt, mineral wool, various fibrous non-woven materials, and the like. with a density of 30 to 125 kg / m ³ . Elements are enclosed in a shell that covers their side and does not cover the end surface. The shell fixes the elements to each other and consists of two flexible (at mounting loads) sheets, for example, fiberglass, fiberglass, fiberglass, varnish, etc. The shell fixes the elements to each other by gluing the shell, for example with polymer adhesives, and consists of two sheets, for example fiberglass (fiberglass, fiberglass, glass mesh, etc.). One of the sheets is fixed on the surfaces of each of the heat-protective elongated elements opposite the insulated surface, and is additionally covered with aluminum foil, which ensures its tightness. Another sheet is fixed on the remaining three side surfaces of each of the elongated elements. The elements are fixed to the shell arbitrarily, that is, in such a way that no preferential orientation of the material fibers to the surface of the product is observed.

Additionally, the product is covered with a sealing polymer shell, for example, from a sheet of polypropylene, low pressure polyethylene, etc. The sealing shell is placed on the end surfaces of the elongated insulating elements, and on part of their side surfaces, in particular on the surfaces from the side of the object being sealed (pipeline, shell) and from the opposite side. In addition, the sealing sheath covers the edge side surfaces of the extreme insulating elements (surfaces where the retaining wire exits).

The claimed product can be manufactured as follows. Prefabricated elongated elements are sequentially placed on the first fiberglass sheet and fixed to the sheet. Then, on the remaining side surfaces of the elements, a second fiberglass sheet is fixed. To do this, the elements are successively aligned in pairs in pairs with surfaces where the first sheet is already fixed (by bending this sheet in the joint area of the elements), and the second 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 again on the side surfaces of the elements facing each other, and again on the surface facing the insulated surface, etc. Next, the free surface of the first fiberglass sheet (the surface opposite to the surface where the heat-insulating elongated elements are placed) is covered with aluminum foil (for example, foil tape, by gluing the foil, etc.). Further, a polymer sealing shell is placed on the surfaces of the product (except for surfaces with which the elongated elements are in contact with each other).

In FIG. a specific example of the inventive product (side view) is presented, a part of the sealing shell is removed.

A specific example of the inventive thermal insulation product is a universal thermal insulation system STU for insulation of pipelines and shells. The system consists of fibrous heat insulators 1, having the form of rectangular bars made of mineral plates or basalt mat. The shell of the system consists of structural sheet material 2 (fiberglass, fiberglass, basalt fabric, etc.) and a cover sheet 3 (aluminum foil encapsulated on fiberglass, fiberglass, varnish). In addition, the system has a damping element 4, a retaining wire 5 and an overlap of the cover sheet 6, which are necessary to ensure a tight fit of the system along the entire diameter of the pipe during installation. The product is covered with a sealing shell 7 of a sheet of polypropylene placed on the side surfaces of elongated elements (except for surfaces with which the elements are in contact with each other), and on the end surfaces of 8 elements.

The inventive heat-insulating product can bend in the opposite direction of the insulated surface, without deformation of the extension elements. This makes it easy to roll the product into a roll for transportation, for example in cardboard boxes, and during storage. During installation, when the product is bent towards the insulated surface, deformation of the heat-insulating elements occurs. 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 elastic deformation, provides the possibility of reusable use of deformable elements. The presence of a sealing shell allows you to protect the product not only from atmospheric and other "external" moisture, but also from leaks of the insulated medium (from the side of the pipeline, shell, etc.). The arbitrary orientation of the fibers of the fibrous insulators eliminates the anisotropy of the product in terms of thermal conductivity, which improves the heat-shielding properties in complex sections of pipelines and shells (joints, branches, etc.). The absence of a sealing shell on the side surfaces of the insulating elements with which they are in contact allows the exchange of convection gas flows between the elements, which also improves the heat-insulating properties of the product.

Claims (1)

A heat-insulating product containing elongated insulating elements of elastically deformable fibrous material, interconnected and enclosed in a shell that covers the lateral surfaces of the elongated elements and consists of two flexible sheets, one of which is sealed and forms the lateral surfaces of the elongated elements opposite to the surfaces facing to the insulated object, and the other forms the remaining lateral surfaces of the elongated elements, characterized in that the product is provided with additional a sealed hermetic shell made of a polymeric material and placed on the side surfaces of elongated elements facing the insulated object, on the side surfaces of elongated elements opposite to the surfaces facing the insulated object, and on the end surfaces of the elongated elements, flexible sheets are connected by an adhesive joint, and fibers elastically deformable fibrous material is randomly oriented relative to the side surfaces of the elongated elements.