SK5574Y1 - Reflective thermal vapour-proof insulation - Google Patents

Abstract

Reflective thermal vapour-proof insulation is created by a multilayer film consisting of at least two interleaved aluminium foil (1) interleaved with at least one plastic foil (3) in the thermoplastic closed-cell structure (5) with a different density than the density of plastic foil (3). One side of aluminium foil (1) is equipped with a strength fibreglass mesh (2), which is covered by an outer plastic film (7). The one outside of the aluminium foil (1) equipped with the fibreglass mesh (2) with an outer plastic film (7) is firmly positioned reinforcing matt (4) with foamed EPS lenses. On the one outer side of the aluminium foil (1) is firmly installed geotextile (6) with weight 200-3000g/m2.

Description

The technical solution relates to reflective thermal vapor insulation from elastic multi-layer reflective high-insulation material for thermal, cooling, acoustic, anti-radon insulation and waterproofing.

BACKGROUND OF THE INVENTION

The prior art reflective insulating materials which are structurally designed with a metal foil fixed on one side or on both sides, where the first reflective layer reflects the heat flux and the second reflective film layer do not allow e.g. cold input.

The main disadvantage of the prior art reflective insulating materials is in their partially complementary function, in the overall thermal insulation composition, for example in roof constructions.

A further disadvantage of this technical solution is that the thermal insulation values of the reflective thermal insulations (reflective insulating strips) are lower than the required values for the thermal protection of buildings.

The essence of the technical solution

These drawbacks are largely eliminated by reflective thermal vapor insulation, according to the present invention, which consists of a multi-layered foil consisting of at least two folded aluminum foils folded by at least one plastic foil in a thermoplastic with a closed cell structure other than density density of plastic film.

The closed cell structure thermoplastic layer is overlaid with one or more layers of geotextile foil of different weight, metal foil, strength reinforcing mesh with fused EPS lenses for plaster strength, possibly a plastic film of different density than the closed cell structure thermoplastic layer. The core with a thickness of 1 to 250 mm is made of thermoplastic, which is fixed on both sides with at least one metal reflective coating with a thickness of 0.001 to 5 mm, or this aluminum foil coating can be equipped with a reinforcing mesh reinforcement with EPS lenses to increase thermoinsulation and mechanical the strength of the plasters.

The main advantage of reflective thermal vapor insulation according to the present invention is that when re-inserting geotextile, plastic, aluminum layers, we achieve higher values of heat transfer coefficient, because the aluminum foil inside the stack has, among other things, much higher reflectivity, especially when polished . There is a greater amount of air-solid interface in the heat flow, which has a higher thermal resistance when heat is transferred, both in conduction and in convection and radiation.

Another advantage of the reflective thermal vapor barrier insulation according to the present invention is the constant physical and chemical properties, both at low and high temperatures. Reflective thermal vapor insulation, according to this technical solution, eliminates the risk of thermal bridges, thermal bonds.

Another advantage of the reflective thermal vapor insulation, according to this technical solution, is the equalized values of thermal resistance in different temperature - humidity conditions.

A further advantage of reflective thermal vapor insulation according to this technical solution is in its versatility, since it can be used both in the construction industry and in the automotive, railway, tram, aviation and shipping industries. Reflective heat vapor insulation according to this invention can be used as insulating, sound absorbing, anti-vibration, anti-radon, airtight (gas-tight), vapor-proof material, and the like.

Another advantage of the reflective thermal vapor insulation according to this technical solution is the use in the building industry, because in the construction of low-energy and passive houses it is possible to very effectively reduce the construction height of single or double-skin roof structures. Within the recovery, i. j. heat recovery by means of reflective multilayer insulation, it is possible to ensure, among other things, airtightness of the building envelope.

For the proper function, it is advantageous that at least one side of the aluminum foil is provided with a rigid fiberglass grid which is covered with an outer plastic film, that at least one outside of the aluminum foil equipped with a fiberglass grid with an outer plastic film according to claim 1, characterized in that at least one outer side of the aluminum foil has a geotextile having a grammage of 200-3000 g / m ² installed permanently.

SK 5574 Yl

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution will be explained in more detail by means of the drawings in which FIG. 1 is a schematic vertical cross-section of a reflective thermal insulation of two aluminum foils bonded on both sides to an outer plastic foil in which a strength fiberglass grid is anchored; FIG. 2 shows a schematic vertical cross-section of the reflective thermal insulation of two aluminum foils bonded on both sides to a covered plastic foil in which a strength fiberglass grate is anchored; FIG. 3 shows a schematic vertical cross-section of the reflective thermal insulation of two aluminum foils bonded on both sides, with a covered plastic foil in which a strength fiberglass grid is anchored; FIG. 4 is a schematic vertical cross-section of a reflective thermal insulation of two aluminum foils bonded on both sides, with a covered plastic foil, in which a strength fiberglass grid is anchored; FIG. 5 shows a schematic vertical section of the reflective thermal insulation of two aluminum foils fixed on both sides, with a covered plastic foil, in which a strength fiberglass lattice is anchored, on one side a reinforcing mesh with foamed EPS lenses is provided, FIG. 6 is a schematic vertical cross-section of the reflective thermal insulation of two aluminum foils bonded on both sides, with a covered plastic foil in which a fiberglass reinforced grid is anchored when geotextile with a grammage of 200-3000 g / m ² is permanently installed on one side.

EXAMPLES

Reflective thermal vapor insulation according to FIG. 1 to 6, consists of a multilayer film consisting of at least two folded aluminum foils and folded by at least one plastic foil 3 in a thermoplastic with a closed cell structure 5 at a density other than the density of the plastic foil 3.

One side of the aluminum foil 1 is provided with a rigid fiberglass grid 2, which is covered with an outer plastic film 7. From one outside of the aluminum foil 1 provided with a fiberglass grid 2 with an outer plastic film 7, a reinforcing reinforcement net 4 with foamed EPS lenses is fixed. Geotextile 6 with a grammage of 200 to 3000 g / m ² is permanently installed on one outside of the aluminum foil 1.

Reflective thermal and vapor barrier insulations are particularly suitable in low-energy construction.

Reflective thermal and vapor barrier insulations are suitable as technical insulation for technical equipment of buildings and halls.

The effect of the reinforcing reinforcement net 4 with foamed EPS lenses is mainly to increase the thermo-insulation and the mechanical strength - the adhesion of the plasters.

The effect of the geotextile 6 is, in particular, that it allows a more balanced year-round temperature-moisture balance of water vapor in roof and wall structures, while increasing the sound insulation efficiency in roof and wall structures.

The reflective thermal vapor insulation of FIG. 1 to 6 may consist of a multilayer film consisting of two, three, four or five aluminum foils 1 folded with one, two, three or four plastic foils 3 in a thermoplastic with a closed cell structure 5 of a different density than the plastic foil 3.

The embodiment of the reflective thermal vapor insulation according to FIG. 1 is suitable in the field of low-energy construction, especially in basement floor constructions.

The embodiment of the reflective thermal vapor insulation according to FIG. 2 and 3 is particularly suitable for non-basement floor and wall structures.

The embodiment of the reflective thermal vapor insulation according to FIG. 4 is particularly suitable in the field of special technical insulations both in construction and in industry and for extreme insulation requirements, e.g. when storing liquid nitrogen.

The embodiment of the reflective thermal vapor insulation according to FIG. 5 is particularly suitable for wall and roof structures in the field of passive house construction. The effect of reinforcing mesh reinforced with foamed EPS lenses is particularly advantageous for increasing the thermal insulation and mechanical strength and adhesion of plasters.

The embodiment of the reflective thermal vapor insulation according to FIG. 6 allows a more balanced year-round temperature-humidity balance of water vapor in roof and wall structures, while increasing the sound insulation efficiency in roof and wall structures.

Industrial usability

Reflective thermal and vapor barrier insulations are industrially applicable in building industry, in assembly and production (construction) of low-energy and passive wooden buildings, in assembly and production of passive steel skeletons

SK 5574 Υ1 houses. Furthermore, in reconstructions and increased requirements for low-energy demands of building and other structures. Furthermore, in the automotive, railway, tram, shipping and aerospace industries not only as insulating material, but also sound absorbing and anti-vibration material.

Claims (3)

Reflective thermal vapor barrier insulation, characterized in that it consists of a multi-layer foil consisting of at least two folded aluminum foils (1) folded by at least one plastic foil (3) in a thermoplastic with a closed cell structure (5) of a different density than density of the plastic film (3). Reflective thermal, acoustically vapor-proof insulation according to claim 1, characterized in that at least one side of the aluminum foil (1) is provided with a rigid fiberglass grille (2), which is covered by an outer plastic foil (7). Reflective thermal, acoustically vapor-proof insulation according to claims 1 and 2, characterized in that at least one outside of the aluminum foil (1) provided with a fiberglass grid (2) with an outer plastic foil (7) is a reinforcing reinforcement mesh (1). 4) with foamed EPS lenses. Reflective thermal, acoustically vapor-proof insulation according to claim 1, characterized in that a grammage geotextile (6) with a grammage is installed on at least one outside of the aluminum foil (1). 20 200-3000 g / m ² . 3 drawings