RU41755U1 - ROLL HEAT-INSULATING ELEMENT - Google Patents

Abstract

1. Roll insulation element comprising a shielding and cushioning layers, characterized in that the cushioning layer contains channels formed by bulk products made of elastic porous material. A heat-insulating roll element according to claim 1, characterized in that the shielding layer is made in the form of foil-coated polyethylene foam. A heat-insulating roll element according to claim 1, characterized in that the shielding layer is made in the form of a metal foil with a polyethylene layer. A heat-insulating roll element according to claim 1, characterized in that the shielding layer is made in the form of a metal foil reinforced with a glass or polyethylene mesh. A heat-insulating roll element according to claim 1, characterized in that the bulk products are a grating, the intersecting ribs of one direction of which are made of unequal thickness with respect to the intersecting ribs of another direction. A roll insulation element according to claim 1, characterized in that the bulk products are made in the form of solid or hollow profiles, the long sides of which are located at a distance from each other. A heat-insulating roll element according to claim 1, characterized in that the bulk products are made in the form of continuous profiles with ribs, the long sides of which are located at a distance from each other. Roll insulation element according to claims 1, 5 and 6, characterized in that the bulk products are provided with a layer of adhesive material on the side opposite the shielding layer.

Description

The utility model relates to heat-insulating materials, namely to flexible layered insulation elements used in construction, mainly in building envelopes, in cladding of buildings and structures.

Known heat-insulating element, including shielding and cushioning layers (RF Patent for utility model No. 10747, IPC 6 E 04 B 1/78, publ. 16.08.99, bull. No. 8). The shielding layer is made in the form of a metal foil, and the cushioning of polyethylene foam in the form of a continuous web.

The disadvantage of this heat-insulating element is the relatively high weight of the heat insulation from these elements, as well as the difficult diffusion of water vapor from the building envelope.

Also known is a rolled heat-insulating element, including shielding and cushioning layers, where the cushioning layer is made in the form of a lattice of elastic porous material, and the shielding layer is in the form of a metallized film (USSR Author's Certificate No. 613044, MKI 2 E 04 B 1/78, publ. .30.06.78, bull. No. 24). This design of the insulating element is the closest to the claimed utility model and is selected as a prototype.

The use of the lattice allowed to reduce the weight of thermal insulation compared to a continuous cushioning layer, however, the problem of removing water vapor when using such thermal insulation for building envelopes in the prototype has not been solved.

The problem solved by the proposed thermal insulation element is to ensure the removal of water vapor during the operation of buildings and structures.

The essence of the claimed utility model is that the cushioning layer contains channels formed by bulk products made of elastic porous material, such as polyethylene foam. These bulk products can

represent solid or hollow profiles, the long sides of which are located at a distance from each other, as well as solid profiles with ribs. Channels are also formed if the bulk products are made in the form of a lattice, the intersecting parallel ribs of one direction of which are made of unequal thickness with respect to the intersecting parallel ribs of the other direction. The shielding layer can be made of foil-coated polyethylene foam, in the form of a metal foil with a polyethylene layer or a metal foil reinforced with a glass or polyethylene mesh. Bulk products can be provided with a layer of adhesive material on the side of the opposite shielding layer.

Figure 1 shows the proposed heat-insulating element with channels formed by bulk products in the form of profiles of elastic porous material, figure 2 is a view A of the element shown in figure 1, figure 3 is a fragment of a cross section of a heat-insulating element with channels, formed by volumetric products in the form of continuous profiles of elastic porous material with ribs, in Fig.4 is a fragment of an element with a volumetric product in the form of a lattice, in Fig.5 is a section AA of the element depicted in Fig.4.

Roll insulation element consists of a shielding layer 1, attached to the cushioning layer, which is made in the form of volumetric products 2 of elastic porous material of various profiles with the formation of channels 3. Volumetric products can be a lattice, parallel ribs 4 of one direction which form channels 3, so how their thickness is greater than the thickness of the parallel ribs 5 of a different direction. Volumetric products can also be solid profiles 6 with ribs 7 parallel to each other and forming channels 3. Volumetric products 2 are provided with a layer of adhesive material 8 on the side opposite to the shielding layer 1.

To create thermal insulation of the building envelope, the proposed roll-on heat-insulating element is attached, in particular with the help of a layer of adhesive material 8, to the plane of this structure. Consistently fixing the heat-insulating elements and combining the ends of the bulk products 2 with each other, a heat-insulating layer with extended channels 3 is obtained, by means of which water vapor is removed during the operation of buildings.

Rolled heat-insulating elements of the proposed design are manufactured by CJSC LIT Information Technology Plant and are tested at construction sites in the Yaroslavl Region, that is, their industrial applicability is ensured.

Claims (8)

1. Rolled heat-insulating element, including shielding and cushioning layers, characterized in that the cushioning layer contains channels formed by bulk products made of elastic porous material. 2. Roll insulation element according to claim 1, characterized in that the shielding layer is made in the form of foil foamed polyethylene. 3. Roll insulation element according to claim 1, characterized in that the shielding layer is made in the form of a metal foil with a polyethylene layer. 4. Roll insulation element according to claim 1, characterized in that the shielding layer is made in the form of a metal foil reinforced with a glass or polyethylene mesh. 5. Roll insulation element according to claim 1, characterized in that the bulk products are a lattice, the intersecting ribs of one direction of which are made of unequal thickness with respect to the intersecting ribs of another direction. 6. Roll insulation element according to claim 1, characterized in that the bulk products are made in the form of solid or hollow profiles, the long sides of which are located at a distance from each other. 7. Roll insulation element according to claim 1, characterized in that the bulk products are made in the form of solid profiles with ribs, the long sides of which are located at a distance from each other. 8. Roll insulation element according to claims 1, 5 and 6, characterized in that the bulk products are provided with a layer of adhesive material from the side opposite the shielding layer.