RU1838537C - Heat-insulating material and method of its manufacture - Google Patents

Abstract

Usage: the heat-insulating material is characterized in that the heat-insulating layer is made with counter cuts or flat slit openings. Counter cuts or flat slotted openings form two systems. A method of manufacturing a heat insulating material is characterized in that after cutting, each layer is subjected to bilateral dissection in mutually cross directions with a displacement of the cuts. made on one side of the layer, relative to cuts made on the opposite side of the layer. 2 pp. 9 s.p. f-ly, 8 ill.

Description

The invention relates to heat-insulating materials and methods for their manufacture and is a layered material used in constructions and Elements of civil and industrial buildings, as well as in clothing.

The aim of the invention is to improve the performance of the insulating material in flexible rollable structures while maintaining high heat-shielding properties and saving heat-insulating material.

This is achieved due to the fact that in the heat-insulating material, including the heat-insulating layer, the heat-insulating layer is made with counter cuts or flat slotted recesses in the initial position with closed edges, and the counter cuts form two systems, one of which is formed times made on one side of the insulating layer, and the other on the opposite side of the layer and in area is located in response no less than one in relation to the cuts of the opposite side with mutual displacement opolozhnyh cuts relative to the substrate on the part of step cuts. In this case, the insulating material may be provided with mesh reinforcement located in the slots formed by cuts; mesh reinforcement can be made in the form of flexible grids, single or combining sections of a heat-insulating layer with cuts made from its opposite sides; cuts opposite the thickness of the insulating layer can be made asymmetric in depth and / or in pitch and configuration of their location; the depth of opposite cutting systems can be made mutually overlapping part of the thickness of the insulating layer; lower borders of opposite cuts or centers rounded

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the broadening formed at the lower boundary of the flat slits formed by the cuts can be located in the same plane with the possibility of flat placement of mesh reinforcement; the depth of cuts can be less than half the thickness of the layer or the total thickness of two opposite asymmetric in local depth of each of them is less than the thickness of the element.

According to a method of manufacturing a heat-insulating material, including the preparation of the composition, pouring into a mold and then cutting into layers, after cutting, each layer is subjected to bilateral dissection in mutually cross directions with the displacement of cuts made on one side of the layer relative to cuts made with opposite side of the layer.

In this case, after performing cuts, the material can be reinforced by introducing into the cuts of one side flexible reinforcing elements in the form of threads or flexible rods with their location in one direction in each adjacent or in each ith section, and from the opposite side of the layer, similar reinforcing elements are introduced into cross-cuts and connect them at each or every Ith intersection with cross reinforcing elements introduced from the first side.

The reinforcing elements introduced from the opposite side are looped through at each or every i-th intersection over the reinforcing element of the cross direction laid in the cut of the first side; they may use at least a portion of reinforcing elements made tubular or combined with tubular ones of a sealed flexible material with the possibility of filling them with a coolant and circulating the latter through a heating and / or cooling device.

Fig. 1 shows a plan of the proposed insulating material; figure 2 and 3 - section aa and bb in figure 1; figure 4 is an alternative solution to section AA in figure 1; Fig. 5 is a plan view of an insulating material, a variant with mesh reinforcement; in Fig, b - section b-In Fig.5; Fig. 7 is a variant solution of a heat insulating material with a different configuration and arrangement of cuts on opposite sides of a heat insulating layer; Fig. 8 is a cross-sectional view of a spatial mesh reinforcement.

The heat-insulating material includes a heat-insulating layer 1. made with counter cuts 2 and 3 or flat

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slotted recesses in the initial position with closed edges, the oncoming cuts form two systems, one of which is formed by cuts 2 made on one side of the heat-insulating layer 1, and the other on the opposite side of the layer 1 and is located no less than one with respect to the cuts 2 of the opposite side with mutual displacement of the reciprocally opposite relative to the base of the cuts 3 on the part of the step of cuts.

The insulating material may be provided with mesh reinforcement 4 located in the slots 5 formed by cuts.

Mesh reinforcement can be made in the form of flexible grids, single or uniting sections of the heat-insulating layer with the first cuts 2 and 3, made from its opposite sides.

The cuts 2 and 3, opposite in thickness of the heat-insulating layer 1, can be made asymmetric in depth / and / or in step and configuration of their location (Figs. 2-4).

The depth of the opposite systems of cuts 2 and 3 can be made mutually overlapping part of the thickness of the heat-insulating layer (Fig. 3).

The lower boundaries of the opposite cuts or the centers of the rounded broadening b formed at the lower boundary of the flat slits formed by the cuts can be located in one plane with the possibility of a flat placement of mesh reinforcement 4.

The depth of cuts 2 and 3 may be less than half the thickness of layer 1 or the total thickness of two opposite asymmetric ones at the local depth of each of them may be less than the thickness of the material.

The material is made as follows.

A composition is prepared by mixing its ingredients in the required qualitative and quantitative composition, pouring it into a mold, and then cutting it into layers after it has cured into a mold. After cutting, each layer is subjected to bilateral dissection in mutually cross directions with the displacement of the cuts made on one side of the layer relative to cuts made on the opposite side of the layer.

After cutting, the material can be reinforced by introducing flexible reinforcing elements in the form of threads or flexible rods into the cuts of one side

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with their location in one direction in each adjacent or in each I m cut, and from the opposite side of the layer, similar reinforcing elements are introduced into cuts of the cross direction and connect them at each or to each ith intersection with the cross reinforcing elements introduced with first side.

Reinforcing elements introduced from the opposite side, loop-shaped. Pass at each or every i-th intersection above the reinforcing element of the cross direction laid in the cut of the first side.

At least part of the reinforcing Elements can be made tubular or combined with tubular from a sealed flexible material with the possibility of filling them with a coolant and circulating the latter through a heating and / or cooling device.

The application of the invention will provide an improvement in the performance of flexible thermal insulation in tented roll-up constructions, as well as in thermal insulation of clothes due to the described design features of the material itself, as well as the described method of its manufacture.

Claims (11)

1. A heat-insulating material comprising a heat-insulating layer, characterized in that the heat-insulating layer is made with counter cuts or flat slotted recesses, in the initial position with closed edges, the counter cuts or flat slotted recesses form two systems, one of which is formed by cuts or recesses made on one side of the heat-insulating layer and the other on the opposite side of the layer and in area is located not less than one in relation to the cuts or recesses of the opposite side nym offset relative to the opposite base part cuts for steps. 2. Material tyup.1, characterized in that it is equipped with mesh reinforcement. 3. The material according to claim 2, with the fact that the mesh reinforcement is made in the form of flexible grids, single or combining sections of the heat-insulating layer with cuts made from its opposite sides. 4. The material according to claim 1, characterized in that the cuts opposite in thickness of the heat-insulating layer are asymmetric in depth and / or in pitch and configuration of their location. 5. The material according to claim 1, with the fact that the depth of the opposite cutting systems is made mutually overlapping part of the thickness of the heat-insulating layer. 6. The material according to claim 1, wherein the lower boundaries of the opposite cuts or the centers of the rounded broadening formed at the lower boundary of the flat slits formed by the cuts are located in the same plane as the possibility of flat placement of mesh reinforcement. 7. The material according to p. 1-4, with the fact that the depth of cuts is less than half the thickness of the layer or the total thickness of two opposite asymmetric ones with respect to the local depth of each of them is less than the thickness of the element. 8. A method of manufacturing a heat-insulating material, including the steps of preparing the composition, pouring into a mold, followed by cutting into layers, characterized in that after cutting each layer is double-sided dissection in mutually cross directions with offset cuts made on one side of the layer relative to cuts made on the opposite side of the layer. 9. The method according to claim 8, characterized in that after performing the cuts, the material is reinforced by introducing into the cuts of one side flexible reinforcing elements in the form of threads or flexible rods with their arrangement in one direction in each adjacent or in each I m section and with the opposite the sides of the layer introduce similar reinforcing elements into the cross cuts and join them into each or in each I m intersection with cross reinforcing elements introduced from the first side. 10. The method according to claim 9, characterized in that the reinforcing elements introduced with of the opposite side, looped through at each or every i-m intersection above the reinforcing element of the cross direction laid in the cut of the first side. 11. The method of pop. Ei 10, with the exception of the fact that at least part of the reinforcing elements are used, made tubular or combined with tubular from a sealed flexible material with the possibility of filling them with a coolant and circulation the latter through a heating and / or cooling device. b .6 (rg / e.2 pЈ / a3 / 7 - / d -A it AT r IN I I {II i Ґ I ill -ir i Hi 1 fiE.5 (rig. In (pt / Ј. 7