CZ321897A3 - Damp-proof insulation usable as thermal insulation of buildings - Google Patents

Abstract

The invention relates to a vapour barrier for use in the heat insulation of buildings, especially for use in new buildings and the renovation of old ones. The vapour barrier of the invention can effect water vapour exchange in various environmental conditions. This is accomplished by the use as the essential material of a material having a water vapour diffusion resistance depending on the environmental humidity and also had adequate tensile and tear strength.

Description

Technical field

The invention relates to a side-mounted moisture insulation suitable for the thermal insulation of buildings, in particular for the thermal insulation of new buildings and for the renovation of old buildings.

BACKGROUND OF THE INVENTION

In order to reduce the production of carbon dioxide in the heating of buildings, thermal insulation measures are being applied in the construction of new buildings and in the remediation of old buildings. for example, on buildings with a visible lattice structure, thermal insulation can only be carried out by indoor ones in winter conditions.

On the contrary, with what rain mills and infills, the possibility of drying in and out, so that even the improved thermal insulation ensures long

Similar difficulties occur with the additional complete intermediate step of the construction at Frau.nhof, which has proven that, in the interior mounted moisture insulations, with water vapor diffusing resistance (which does not cause any doubt) to achieve wood moisture. So it can no longer enrich moisture to a sufficient extent inside.

SUMMARY OF THE INVENTION The invention is capable of providing

In view of the above-mentioned disadvantages, it is an object of the present invention to provide moisture insulation for indoor spaces which, under different ambient conditions and variable in the use of water vapor exchange between the air in the space and the interior of the component, largely eliminates moisture damage to the component.

The invention is solved by the features set forth in the characterizing part of claim 1.

Further modifications and embodiments of the invention result from the features set forth in the dependent claims.

The inventive moisture insulation, which may also be referred to as moisture adaptive moisture insulation, is used as a critical material having a water vapor diffusion resistance dependent on ambient humidity and which has sufficient tensile and compressive strength for use in buildings.

As a foil or material applied to a carrier material, the moisture insulation at relative atmospheric humidity surrounding the moisture insulation has between 30% and 50% (water vapor diffusion resistance / s) value of two to five meters diffusively equivalent air layer thickness and relative humidity in the range of 60% to 80%, which is typical, for example, in the summer months, the water vapor diffusion resistance (s), which is less than the I diffusion equivalent air layer thickness.

This favors drying in the summer months without the moisture supply in winter conditions reaching a value that could cause damage to the materials and buildings used.

causes diffuse under winter conditions. resistance of water oar than in summer

The dovy

The invention can be applied to metal roofs or wooden roofs, in addition to the disadvantages of the above-mentioned applications

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For example, polyamide 6, polyamide 4 or polyamide 3 which are known from BIEDERBICK K. Kunststoffe - course und bundig, Vogel-Verlag Wurzburg (Plastics - short and steep, Vogel publishing house) can be used as the material for insulation against moisture with the desired properties. These polyamides are used as films which immanently have the desired water vapor diffusion resistance properties. Moreover, they are characterized by the strengths required for use in buildings so that they can be used at no additional cost. The film thickness can range from 10y M to 2 mm, preferably in the range of 20 µm to 100 µm.

However, other materials which do not exhibit sufficient strength can be used, but they can be applied to suitable support materials. The support materials preferably have a low water vapor diffusion resistance and the desired moisture insulation properties are achieved by a substantially applied layer.

fiber-reinforced cellulosic materials, such as plastic webs or perforated paper webs.

foil

It is also possible to use a material deposited on a carrier mat can be carried out unilaterally on the carrier material, and in special cases the material may be interposed between two carrier layers.

Spraying or also in sandwiches o and poskozoa par oo for a long time

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DIN o Ke11 · also use dispersions for application to the support

In the case of one-sided application to the carrier material, in this case, o

The carrier material is: i and the side facing or away from the spaces

DETAILED DESCRIPTION OF THE INVENTION

Hygric behavior in laboratory experiments

The moisture vapor diffusion resistance of adaptive moisture insulation was determined in accordance with DIN 52 615 in the dry range (3/50% relative humidity (RH) and in the wet range (50/93% RH) as well as in the two humidity areas lying between them) 33 (50% and 50/75 rh) .The result for the airborne equivalent air layer thickness (s value) of 50 µm moisture insulation is, depending on the mean relative humidity prevailing in the experiment, shown to be between 30% and 50% in winter and between approximately orots of humidity.

Claims (1)

Industrial applicability Investigating calculations have shown that steep roofs with vapor-proof cladding can, after incorporation of 10 cm to 20 cm thick mineral and mineral fibers between the rafters, be so damp even in the case of moisture insulation on the side of the room that within a few years c. inevitably, damage is caused. Especially the situation is critical at high humidity in the chamber, which, for example, fluctuates between 50% in January and 70% r.h. in July, when at the same time due to the North orientation, short-term radiation gains are small. Consequently, an estimate of the effect on adaptive isolation on long-term moisture management of such constructions under Holzkirchen climate conditions is calculated by using the experimental method verified. 28 ° / with a roofing which shows a non-insulated, north-facing steep roof with wooden shuttering, bituminous cardboard and tile plated with hygroscopic equilibrium with its surroundings in Figure 2 is, after installation of the inter-step insulation insulation and the moisture adaptive insulation side At the top, there is recorded in the roof and below the course of moisture is on the moisture, placed the course of the total wood moisture plank formwork over a period of ten years.While the humidity of the roof with normal insulation against moisture is rapidly increasing, while already in the first year (20 wt.%), Moisture cannot be adapted to moisture by adaptive insulation against moisture. In summer, the humidity of the wood decreases below 20 wt.%, So there is no fear of moisture damage. under stress, provided the accumulation of • a high risk of damage