RU63019U1 - SHEET HEAT-INSULATING MATERIAL - Google Patents

Abstract

The utility model relates to sheet heat (cold) insulating materials intended for use as thermal insulation or cold insulation of various non-planar objects (pipelines, shells, etc.). Thermal insulating sheet material contains 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 forms the lateral 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, and the elongated elements are formed by corrugations of a sheet godeformiruemogo fibrous material and the flexible sheets forming the shell are fixed to each other through the fibrous material is elastically deformable by means of staples arranged in zones tops of corrugations of the fibrous material. 1 n.p.f.

Description

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

An analogue of the claimed utility model is a heat-insulating material, consisting of elongated insulating elements interconnected from elastically deformable fibrous material and from non-deformable material at mounting loads, enclosed in a shell of fiberglass sheets fixed on the side surfaces of the elements (see RF patent No. 34688, IPC ⁷ F 16 L 59/02, 2003). The essential features of the analogue “elongated insulating elements of elastically deformable fibrous material, the shell of fiberglass sheets” coincide with the essential features of the claimed utility model.

The disadvantage of the analogue is the complexity of the design as a result of the presence of heterogeneous heat insulators in the material, requiring a certain placement and fixation, which, in turn, complicates the manufacturing technology of the material, determines its high cost and, accordingly, reduces the efficiency of its use in mass use.

The prototype of the claimed utility model is an insulating material 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 the surfaces facing the insulated object, and the other forms the remaining lateral surfaces of the elongated elements (see RF patent 53751, IPC ⁷ F 16 L 59/02, 2006). Salient features of the prototype “elongated insulating elements of elastically deformable fibrous material, enclosed in a shell that covers the side surfaces of the elements and consists of two flexible sheets, one of which forms the side surfaces of the elements opposite to the surfaces facing the insulated object, and the other forms the remaining side surfaces of elongated elements "coincide with the essential features of the claimed utility model.

The disadvantage of the prototype is also the complexity of the design and manufacture of the material, which reduces the economic efficiency from its operation.

The task to which the claimed utility model is directed is to simplify the design of the heat-insulating material, simplify the technology of its manufacture and installation (while maintaining the heat-insulating ability, maintainability and other operational characteristics).

To achieve the specified technical result in a sheet of heat-insulating material 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, nennye ribbed sheet elements are formed of the compliant fibrous material and the flexible sheets forming the shell are fixed to each other through the fibrous material is elastically deformable by means of staples arranged in zones tops of corrugations of the fibrous material.

Fig. 1 shows a sheet heat-insulating material, a lateral section. Figure 2 shows the location of the staples, a view from the side of the surface opposite the surface facing the insulated object.

Sheet heat-insulating material includes a flexible sheet 1 (for example, fiberglass, fiberglass, etc.), on which is placed a sheet of heat-insulating material of elastically deformable fibrous material (for example, glass wool sheet, mineral wool mat, basalt mat, etc.) . This sheet forms the surface of the insulating material opposite to the insulated surface. The sheet heat-insulating material 2 is made with wave-shaped folds (corrugations) 3, forming elongated insulating elements, while the corrugation peaks 4 are in contact with the flexible sheet 1. On the other surface of the insulating material is placed another flexible sheet 5 (for example, fiberglass, fiberglass, etc.), which repeats the corrugated (wavy) shape of the corresponding surface of the heat-insulating material. Flexible sheets and heat-insulating material are fixed to each other with staples 6 (metal staples, plastic staples, etc.). In this case, the flexible sheets are fixed to each other through a layer of fibrous elastically deformed material. Paper clips are placed in the areas of the corrugation peaks in contact with

sheet 1. In the space 7, available between the sheet 1 and the vertices 8 of the corrugations that are not in contact with the sheet 1, if necessary, additional heat-insulating elements can be placed, for example, segments of foam glass, miniplates, foam, etc.

The claimed material can be manufactured as follows. On the first flat fiberglass sheet is placed a basalt mat, which is pre-shaped corrugated. On the opposite side of the mat is a second fiberglass sheet that repeats the wavy shape of the surface of the mat. Then, the fiberglass sheets and mat are fastened together with each other in the zones of the mat, where the vertices of the waves of the mat are in contact with the first fiberglass sheet.

A specific example of the claimed sheet material is the universal thermal insulation system STU-A, which is a “carpet”, the shell of which consists of two PSHT glass sheets, and the central part is made of corrugated mineral plate P-75. Fixing the elements of the "carpet" is provided with metal clips by flashing the ends of the clips of the "carpet" and bending the ends of the clips. If it is necessary to provide increased requirements for the rigidity of the thermal insulation structure (for example, the need to support the weight of a walking person), corrugated glass segments with a density of 100-200 kg / m ³ or P-175 miniplates can be placed inside the corrugations between the fiberglass contact with the vertices of the corrugations only and the mineral plate .

The sheet material of the claimed structure is easily bent in the direction opposite to the insulated surface. This makes it easy to roll material for transportation and storage. During installation, when the sheet is bent to the side of the insulated surface, elongated elements are deformed, depending on the curvature of the insulated surface, and allowing isolation of a rather complicated configuration of the insulated surface, which greatly simplifies the installation of insulation. The absence of a large number of elements necessary for the production of the claimed material (fiberglass canvas, basalt mat and metal clips required) significantly simplifies both the design of sheet heat-insulating material and the technology for its manufacture. At the same time, all the necessary operational properties of the material are preserved.

Claims (1)

Sheet heat-insulating material 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 forms the lateral 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, characterized in that the elongated elements are formed by corrugations E fibrous sheet of elastically deformable material and flexible sheets forming the shell are fixed to each other through the fibrous material is elastically deformable by means of staples arranged in zones tops of corrugations of the fibrous material.