DE19839295A1 - Heat insulating composite system, used as heat insulating facade covering for buildings, comprises reinforcing fabric-free light mineral plaster on light mineral insulation board - Google Patents

Abstract

The system comprises a mineral, preferably foamed concrete or foamed mortar, lightweight heat insulation board for fixing on a building wall and a reinforcing material of a light mineral plaster applied onto the board without a reinforcing fabric. An Independent claim is also included for a method for manufacturing the above heat insulating composite system.

Description

The invention relates to a use as a facade cover Tough insulation system with one on a building wall definable thermal insulation panel and one on the thermal insulation panel definable reinforcement.

Such a for thermal insulation of new and old buildings settable thermal insulation composite systems have been known for a long time. The to describe the individual elements of such a heat Terms used in the composite network are already in the DE 32 02 960 A1 defines. Then under the term insulation plate according to the above-mentioned font preferably made of extru dated polystyrene rigid foam ver formed stood. A material for the  Embedding of a reinforcing fabric, the Ar a coarse mesh fabric made of glass fibers a mesh size of about 5 mm. Inscribed further the term reinforcement layer generally refers to the composite Reinforcing compound and reinforcing mesh. In addition, a warmth insulation composite system one for fixing the insulation board to the Have adhesive wall serving building wall. Alternatively or in addition, the insulation board can also be mechanical, for example with expansion dowels or with a rail system on the building factory wall. Can on the reinforcement layer also a base coat and / or one for the weather protection and the appearance of the facade responsible for plastering be applied. Finally, the finishing coat can also be used an exterior paint. The entire shift the insulation board is in the above font as a multi-layer armored plaster coating. According to DE 32 02 960 A1 a mortar-like Ge is used to manufacture the reinforcing compound mix of cement and an adhesive or a filler used on the basis of plastic dispersions, the 20 to a maximum of 50% Portland cement can be added.

According to DE 30 40 077 C2, the use of an Ar lubrication fabric, if one of a ge foam plastic existing insulation board a reinforcement mass is applied next to a hydraulic bandage medium, a surcharge and usual additives cut, alkali-resistant glass fibers with a Text number from 20 to 200 g / km and a length from 5 to 33 mm in Contains proportions of 0.3 to 3.0 vol .-%. With such a on an insulation made of a foamed plastic plate applied reinforcement can reduce the risk of cracking formation on the surface of the finished composite thermal insulation system be reduced because the armia forming a rigid shell compound, if necessary together with the plaster, practically springy  adheres to the yielding surface so that it may appear tensions are reduced.

However, it has been shown that with DE 30 40 077 C2 known reinforcing compound at low temperatures observed increased risk of cracking and detachment is. To solve this problem, DE 34 29 251 C2 the use of an armie that can be applied without reinforcement fabric mass proposed by a pre-networked or crosslinkable synthetic resin binder is bound, the plastoela properties between -10 and + 40 ° C, a glass temperature temperature transition at less than -15 ° C and an elongation at break at -15 ° C of at least 200%. With such a Reinforcing compounds can reliably prevent cracking become. The plaster structure using this reinforcement is, however, disadvantageous in that it is higher Outside temperatures become very soft and sticky and therefore strong tends to get dirty. In addition, the high art deteriorates Portion of the reinforcing material known from DE 34 29 251 the fire-related and ecological properties of one there with manufactured plaster structure.

To improve fire engineering and environmental Properties of composite thermal insulation systems became in the latter Time has progressed to the well-known insulation boards foamed plastic with mineral insulation boards replace. One using a mineral insulation board manufactured thermal insulation composite system is for example in the DE 42 16 204 A1 specified. According to this script, minera thermal insulation boards from 15 to 25% by mass of a lime bin medium, 50 to 70 mass% silicon dioxide, 0 to 10 mas % of a porous aggregate, 0 to 2 mass% of other aggregates sets and a remainder consisting of water the.  

Process for the production of similar mineral heat Insulation boards are in EP 0 816 303 A1, DE 44 08 088 A1, DE 43 39 137 A1 and DE 43 27 074 A1 are described.

In the manufacture of composite thermal insulation systems under It has become known to use the known mineral insulation boards however, showed that cracks on the outer surface of the thermal insulation can only be reliably prevented if a reinforcing fabric is in the possibly also the outer deck layer-forming reinforcing compound is embedded. By one Set of such a reinforcing fabric is achieved that Shrinkage and swelling processes do not lead to deformation of the plaster lead shell, the larger areas of the outer surface of the heat insulation system, but only in small Partial areas occur that are approximately the mesh size of the fabric bes correspond. These deformations in parts of weni square millimeters are so small that they do not crack lead education and can therefore be neglected The deformation of large areas is several millimeters and accordingly cracks of this size can occur.

The attachment of this embedded in the reinforcing compound Reinforcing fabric is, however, with a high level of craftsmanship On-site effort connected.

In view of the problems in the prior art, the Invention, the object of a thermal insulation composite system to provide the type described at the beginning, which avoids formation of cracks and ensuring more satisfactory fire technical and ecological properties quickly and can easily be attached to a building wall.

To solve this problem, a further training of the be known thermal insulation composite system proposed, which in essence  Lichen is characterized in that the thermal insulation board in Form of a mineral, preferably made of foam concrete and / or foam mortar existing lightweight insulation panel is and the reinforcement mass from a mineral light plaster exists and without reinforcement fabric on the thermal insulation board is definable.

Surprisingly, it has been shown that Ver application of a thermal insulation board in the form of a mineral Light insulation board combined with one made from a minerali existing light reinforcement compound an adjustment the mechanical properties, especially the Verfor properties of the reinforcing compound to the mechanical Properties, in particular deformation properties of the heat can be achieved without the use of a Reinforcement fabric avoiding cracks in the outer surface a composite thermal insulation system. So he can inventive thermal insulation composite system under warranty reliable crack prevention quickly and easily of a building wall. The mine also contains ralische light plaster at most small amounts of organic additives Substitutes so that with the thermal insulation composite according to the invention system also satisfactory ecological and fire protection properties are preserved.

Known for its low inherent strength Insulation boards made of mineral wool and stone lamella and the one with the fibrous structure of such insulation boards connected ge health risk, it has proven to be particularly beneficial proved if the light insulation board of the invention Composite thermal insulation system essentially made of foam concrete and / or foam mortar.

A particularly good adaptation of the hygrothermal ver shaping properties of the reinforcement to the corresponding  the properties of the lightweight insulation board is achieved when the foam concrete or foam mortar from a binder sludges from water, quartz powder, hydrated lime, cement and possibly a protein or chemical foaming agent. Another adaptation of the hygrothermal properties of the individual components of the thermal insulation bundsystems can be reached, even if it is mineral light plaster hydrated lime in an amount of preferably 2 to 8 mas % contains.

With regard to the desired insulation properties of the Composite thermal insulation system according to the invention, it is preferred if the lightweight insulation board has a thermal conductivity of less than 0.05 W / mK.

To obtain advantageous mechanical properties of the thermal insulation composite system according to the invention, it has proven to be advantageous if the lightweight insulation board has a compressive strength of more than 0.3 N / mm ² , an adhesive tensile strength of more than 0.03 N / mm ² , and a moisture expansion of less than 1 mm / m, a thermal change in length of less than 14.10 ^-6 m / mK and a density of 80 kg / m ³ to 130 kg / m ³ .

To avoid the undesirable increase in thermal conductivity ability by penetrating water has gone further than Proven useful when the lightweight insulation board of the inventor thermal insulation composite system according to the invention with an additional Hydrophobing is provided. Process for producing hydro phobicized lightweight insulation boards are for example in the DE 44 08 088 and EP 0 816 303 are described, to which together menhang is expressly referred to.

To improve the mechanical properties of a he inventive thermal insulation composite system, it has further than  proven to be advantageous if the lightweight insulation board is fiber-reinforced is strengthened. Organic and / or inorganic ver Reinforcing fibers are used. The is particularly preferred Use of cotton fibers.

The reinforcing compound of the thermal insulation according to the invention composite plastering light plaster can 30 to 50 mass% a preferably carbonatic fine filler, such as Quartz flour or the like 15 to 35, preferably 25 to 35% by mass a light filler, such as natural pumice, perlite, Fillite, expanded clay or the like, 3 to 5% by mass of a polymer dis persion, the organic and / or inorganic reinforcement fa sern and possibly additives to achieve the characteristic Cleaning properties, such as retarding agents, Ab binding accelerator, liquefier, anti-foaming agent and / or Anti-sedimentation and / or anti-shrinkage agents may contain.

Particularly advantageous properties were achieved with light plaster of the following composition:
20.0 mass% Portland cement (CEM 32, 5R)
5.0% by mass of white lime hydrate
40.0 mass% carbonatic fine fillers
30.0 mass% expanded aluminum silicate (light filler)
2.0 mass% polymer dispersion
2.0 mass% cotton fibers
1.0% by mass of additives.

The cement portion of the reinforcing mass Light plaster is preferably 10 to 30 especially before add 10 to 20 mass%. Instead of Portlandze ment also Portland limestone cement, alumina cement, pozzolana  or other cements with comparable properties be set.

The thermal insulation board of the thermal insulation according to the invention bundsystems can, for example, mechanically on the building wall be determined. System anchors can be used, for example be set. Furthermore, thermal insulation board is also considered ten insert that preferably a circumferential notch point and with a rail system on the building wall can be laid.

In addition or as an alternative to the mechanical fastening The thermal insulation board is also fastened with a Adhesive possible. This adhesive can, depending on the surface texture, mineral and / or organic additives point.

The tendency to crack in an inventive Composite insulation system can be further reduced if the Adhesive essentially identical to the reinforcing compound is because in this way an adjustment of the mechanical ver shaping properties of the adhesive to the reinforcement and thus also reached on the thermal insulation board.

Conventional composite thermal insulation systems have a plurality of heat determined independently of one another on the building wall insulation boards. Surprisingly, it has now been shown that the stability of such thermal insulation composite systems under at the same time reducing the tendency to crack in the Outside surface is accessible if the thermal insulation boards are not only attached to the building wall, but also directly connected to each other, preferably glued. The increases the mechanical strength of the thermal insulation composite system is achieved in that by direct connection of the individual thermal insulation boards a rigid outer shell for  the building wall is formed. This outer shell forms a continuous underlay for the reinforcement layer, whereby a crack formation due to the otherwise possible shifts the thermal insulation boards is avoided relative to each other.

To adjust the mechanical deformation properties of the individual components of such a thermal insulation composite systems has proven to be useful when the heat insulation boards are glued with an insulating adhesive, those in terms of their composition with that of the reinforcement corresponding mineral light plaster are identical can. This bonding is expediently carried out horizontally right and / or vertical joints between those at the building thermal insulation panels.

The reinforcing compound of the thermal insulation according to the invention composite plastering light plaster can also do the same Form the top layer of the composite thermal insulation system, on which another exterior paint is applied. However, is also next thought of the light that forms the reinforcing compound plaster an additional smooth or structured plaster layer to apply, on which, if necessary, an exterior paint is also applied will. Expediently for the manufacture of the inventions thermal insulation composite system adhesive, light plasters and / or top coatings, which are also used mechanically are processable.

When choosing the materials for making a thermal insulation composite system according to the invention is preferably so proceeded that the fire resistance of the system in the Building material class A2 falls in accordance with DIN 4102.

When installing a thermal insulation composite according to the invention systems has proven to be particularly useful if After defining the lightweight insulation panels, only one ver  equally thin layer of light plaster with a thickness of less than about 1 cm, preferably less than about 0.5 cm is applied to the lightweight insulation board and after dismantling the hygric tensions of the first layer during the Antrock Apply a second layer and maintain the ge desired overall visual impression is equalized. The second layer can be of the same thickness as the first Layer or applied with a smaller layer thickness be. With this procedure you can drying of the first layer of shrinkage cracks Apply the second layer to be balanced.

Claims (24)

1. Thermal insulation composite system with a heat-insulating plate that can be fixed on a building wall and a reinforcing mass that can be fixed on the heat-insulating plate, characterized in that the heat-insulating plate is formed in the form of a mineral, preferably made of foam concrete and / or foam mortar, and the reinforcing material consists of a mineral mixture There is light plaster and can be fixed on the thermal insulation panel without reinforcing mesh. 2. Thermal insulation composite system according to claim 1, characterized records that the foam concrete or foam mortar from a bin detergent sludges from water, quartz powder, hydrated lime, cement and possibly proteins or chemical foaming agents is produced. 3. A composite thermal insulation system according to claim 1 or 2, characterized characterized in that the mineral lightweight insulation board a Has thermal conductivity of less than 0.05 W / mK. 4. Thermal insulation composite system according to one of the preceding An sayings, characterized in that the mineral Light insulation board has an additional hydrophobization. 5. Thermal insulation composite system according to one of the preceding An sayings, characterized in that the mineral Light insulation board is fiber reinforced. 6. A composite thermal insulation system according to claim 5, characterized records that the reinforcing fibers are organic and / or anor have ganic fibers. 7. A composite thermal insulation system according to claim 5 or 6, characterized characterized in that the reinforcing fibers are cotton fibers point.   8. Thermal insulation composite system according to one of the preceding An sayings, characterized in that the light plaster hydrated lime in an amount of preferably up to 15% by mass. 9. Thermal insulation composite system according to one of the preceding An sayings, characterized in that the light plaster 10 to 30, preferably contains 10 to 20% by mass of a cement. 10. Thermal insulation composite system according to one of the preceding An sayings, characterized in that the light plaster 30 to 50 Contains% by mass of a fine filler. 11. Thermal insulation composite system according to one of the preceding An sayings, characterized in that the light plaster 15 to 35, preferably 25 to 35% by mass of a light filler holds. 12. Thermal insulation composite system according to one of the preceding An sayings, characterized in that the light plaster 3 to 5 Contains mass% of a polymer dispersion. 13. Thermal insulation composite system according to one of the preceding An sayings, characterized in that the light plaster 0.2 to 2 Contains% by mass of reinforcing fibers. 14. Thermal insulation composite system according to one of the preceding An sayings, characterized in that the thermal insulation panel me can be fixed mechanically on the building wall. 15. A composite thermal insulation system according to claim 14, characterized records that the thermal insulation board with one or more Sy can be fixed on the wall of the building.   16. A composite thermal insulation system according to claim 14 or 15, characterized characterized in that the thermal insulation board preferably around has running notch and with a rail system on the Building wall can be determined. 17. Thermal insulation composite system according to one of the preceding An sayings, characterized in that the thermal insulation board with an adhesive can be fixed to the building wall. 18. Thermal insulation composite system according to claim 17, characterized records that the adhesive mineral and / or organic Has additives. 19. A composite thermal insulation system according to claim 17 or 18, characterized characterized in that the adhesive with the reinforcing compound in is essentially identical. 20. Thermal insulation composite system with a plurality of at one Building wall definable thermal insulation panels and one on the Reinforcing compound which can be laid down by thermal insulation boards, in particular according to one of the preceding claims, characterized net that at least two thermal insulation boards preferably lengthways with a horizontal and / or vertical joint connected to each other, preferably glued. 21. A composite thermal insulation system according to claim 20, characterized records that the thermal insulation boards with an insulating adhesive are glued. 22. A composite thermal insulation system according to claim 20, characterized records that the thermal insulation boards with a preferably out visibly its composition corresponds to the reinforcement mass mineral mortar can be glued together.   23. Method of making a composite thermal insulation system according to one of the preceding claims, in which according to Festle a first layer of light plaster against the light insulation board with a thickness of preferably less than about 1 cm, in particular preferably less than about 0.5 cm on the lightweight insulation plate is applied, characterized in that according to Ab building the hygric tensions in the first layer second layer of light plaster applied to the first layer will wear. 24. A composite thermal insulation system manufactured using a process according to claim 23.