RU97802U1 - THERMAL INSULATION PRODUCT - Google Patents

Abstract

 A heat-insulating product containing bandage elements and heat-insulating elements of an elongated shape, enclosed in a shell that covers the side surfaces of the elongated elements and consists of two flexible sheets, one of which is placed on the side surfaces of the heat-insulating elements opposite to the surfaces facing the insulated object, and the other is placed on the other lateral surfaces of the elongated elements, characterized in that the flexible sheets are connected in direct spaces between the insulating elements With metal wire guides arranged orthogonally to the retaining elements, the flexible sheets are joined in the form of stitches, the stitches of which are the same length and evenly alternate on both surfaces of the stitches.

Description

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

An analogue of the claimed utility model is a heat-insulating product, including 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 elongated the elements are formed by corrugations of a sheet of elastically deformed fibrous material, and the flexible sheets forming the sheath are fixed to each other through fibrous elastically deformable material using clips placed in the zones of the vertices of the corrugations of the fibrous material (see RF patent No. 63019, IPC F16L 59/02, 2007 .). Salient features of the analogue are “elongated insulating elements made of fibrous material enclosed in a sheath covering the lateral surfaces of the elongated elements and consisting of two flexible sheets, one of which forms the lateral surfaces of the elongated elements, opposite the surfaces facing the insulated object, and the other forms the remaining lateral surfaces of elongated elements; the flexible sheets forming the shell are fixed to each other ”coincide with the essential features of the claimed utility model.

The disadvantage of the analogue is not the versatility of the product due to its lack of flexibility due to the lack of direct contact between the sheets forming the sheath and the fixation of the flexible sheets through an insulating fibrous material. This leads to the complexity of transportation and storage of the product due to the large size of the rolls, as well as the complexity of installation and lack of maintainability.

The prototype of the claimed utility model is a heat-insulating product containing bandage elements and insulating elements of an elongated shape from an elastically deformable fibrous material, interconnected by fixing the elements by stitching fiberglass to the shell, which covers the side surfaces of the elongated elements and consists of two flexible sheets, one of which is sealed and forms the lateral surfaces of elongated elements, opposite to the surfaces facing the insulated object, and d ugoy forms the remaining side surfaces of the elongate elements, the compliant fibrous material formed with a density 50-125 kg / m ³ and with a preferred orientation of the fibers is orthogonal to the side surfaces of the elongate element opposite to the surface facing the insulated object (see. Russian patent №2379576, IPC F16L 59 / 02, 2010). Salient features of the prototype are “bandage elements and insulating elements of an elongated shape, 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 rest lateral surfaces of elongated elements "coincide with the essential features of the claimed utility model.

The disadvantages of the prototype is the complexity of the manufacture of the product due to the need to fix the insulating elements with the shell by flashing glass fibers, which is carried out by several sequential flashing and bending operations for each of the insulating elements. Another disadvantage of the prototype is its low maintainability, also due to the firmware of glass fiber, which, if necessary, replace one or more insulating elements, is irreversibly destroyed and does not allow to fully restore the product without removing it from the insulated object.

The task to which the claimed utility model is directed is to simplify the manufacturing technology of the product, as well as to increase the maintainability of the product without dismantling it from the insulated object, by eliminating the need to flash insulating elements with glass fibers.

To achieve the technical result, a heat-insulating product containing bandage elements and insulating elements of an elongated shape, enclosed in a shell that covers the side surfaces of the elongated elements and consists of two flexible sheets, one of which is placed on the side surfaces of the elongated elements opposite to the surfaces facing the insulated object, and the other is placed on the remaining lateral surfaces of the elongated elements, flexible sheets are connected in between the insulating elements ntami straight sections of metal wire arranged orthogonally rim unit, wherein the connection is made in the form of stitches, which stitches are of equal length and uniformly on both surfaces of alternate stitches.

The essential features of the claimed utility model “flexible sheets are connected in the intervals between the insulating elements by straight sections of metal wire arranged orthogonally to the retaining elements, and the connection is made in the form of stitches, the stitches of which are the same length and evenly alternate on both surfaces of the stitches” are distinctive from the prototype features .

The heat-insulating product consists of bandage elements, which can be used as pieces of soft galvanized wire or propylene (glass-bandage) tape, and insulating elements (bars) of an elongated shape of a square, rectangular, trapezoidal or other section made of a material that is elastically deformable under mounting loads . As such material, basalt felt, mineral wool, various fibrous nonwoven materials, etc. can be used. The insulating elements are enclosed in a shell that covers their side and does not cover the end surface. The shell holds the insulating elements at a small distance from each other and consists of two flexible (at mounting loads) sheets, for example, fiberglass, fiberglass, basalt fabric, fiberglass, fiberglass, foilplastic, etc. One of the flexible sheets is placed on the surfaces of each of the heat-resistant elongated elements opposite the insulated surface, and can be additionally coated, for example, with aluminum foil. Another sheet is placed on the remaining three side surfaces of each of the elongated elements. In the gaps between the insulating elements, the flexible sheets are fixed to each other by a straight section of a rigid metal wire. The wire is arranged orthogonally to the bandage elements in the form of stitches, the stitches of which are the same length and alternately alternate on both surfaces of the stitches (one stitch of the wire on the flexible sheet opposite the insulated surface, the next on the flexible sheet located on the side of the insulated surface, the third again on the sheet, opposite to the insulated surface, the fourth - on a flexible sheet located on the side of the insulated surface, etc.).

The claimed product can be manufactured as follows. The prefabricated elongated elements together with the retaining elements are sequentially placed on the first flexible fiberglass sheet, then on the other side surfaces of the elements a second flexible fiberglass sheet is placed. Next, in the interval between each pair of elongated elements, metal plates are inserted, the comb-shaped parts of which combine the flexible sheets along the wave-like profile, after which the flexible sheets are stitched along the central longitudinal axis of the wave-like profile in the longitudinal direction of the first sheet with a straight piece of stiff wire. Then the metal plates are retracted. These operations are sequentially repeated for each gap between pairs of elongated insulating elements, as a result of which the shell tightly compresses the insulating elements and fixes them relative to each other. The free surface of the first flexible 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.).

Figure 1 presents a specific example of the inventive product, side view. Figure 2 presents the view of the product from the side opposite the insulated surface (additional coating of this surface, for example with aluminum foil, is removed). Figure 3 presents a view of the product from the side of the surface facing the insulated surface. Figure 4 presents a part of the cross section of the product by stitch.

A specific example of the inventive thermal insulation product is a universal thermal insulation system STU for insulation of pipelines. The system consists of fibrous insulating elements 1, having the form of rectangular bars of minplite or basalt mat. The shell of the system consists of sheet material 2 placed on side A from the side of the insulated surface on the three side surfaces of the insulators, and sheet material 3 placed on side B on the remaining (fourth) side surfaces of the insulating elements opposite the insulated surface. In addition, the system has a damping element 4, retaining elements 5 and overlap 6, which are necessary to ensure a tight fit of the system throughout the diameter of the pipe during installation. The flexible sheets are connected by straight sections 7 of stiff metal wire, stitching the flexible sheets in the form of stitches 8, stitches 9 of which have the same length.

The inventive insulating product is easily bent in the opposite direction of the insulated surface, without deformation of the insulating elements, which makes it easy to fold the product into a roll of small diameter. During installation, the product bends towards the insulated surface due to the deformation of the insulating elements.

The ability to manufacture the product without the need to fix each insulating element to each of the flexible sheets with a large number of fiberglass piercings, requiring several sequential piercing and bending operations for each of the insulating elements, greatly simplifies the manufacturing process of the product. In addition, if it is necessary to replace one or more insulating elements, this can be done directly on the pipeline by pulling out the defective element and inserting a new one in its place, for which it is not always necessary to even take a straight section of wire from the stitches. If this was required, then the removed piece of wire can be easily inserted back along the existing punctures on the sheets. As a result, the maintainability of a thermally insulating product increases significantly and repair costs are significantly reduced.

Claims (1)

A heat-insulating product containing bandage elements and heat-insulating elements of an elongated shape, enclosed in a shell that covers the side surfaces of the elongated elements and consists of two flexible sheets, one of which is placed on the side surfaces of the heat-insulating elements opposite to the surfaces facing the insulated object, and the other is placed on the other lateral surfaces of the elongated elements, characterized in that the flexible sheets are connected in direct spaces between the insulating elements With metal wire guides arranged orthogonally to the retaining elements, the flexible sheets are joined in the form of stitches, the stitches of which are the same length and evenly alternate on both surfaces of the stitches.