DE19839295C5 - Thermal insulation composite system and method for producing a thermal composite system - Google Patents

Abstract

Wärmedämmverbundsystem with a plurality of thermal insulation panels fixed to a building wall and one on the thermal insulation panels Applied light plaster without reinforcing fabric in which the thermal insulation panels in the form of mineral lightweight foam boards consisting of foam concrete and / or foam mortar are formed, characterized in that the thermal insulation panels to form a continuous underlay for the one Armierungsmasse forming lightweight plaster along horizontal and vertical Joints are glued directly to each other with the light plaster.

Description

The The invention relates to a thermal insulation composite system which can be used as a facade cover the preamble of claim 1 and a method of manufacturing a thermal insulation composite system.

For thermal insulation of new and old buildings usable thermal insulation systems have long been known. The terms used to describe the individual elements of such a thermal insulation composite system are already in the DE 32 02 960 A1 Are defined. Thereafter, the term insulation board is understood to mean a thermal insulation board formed according to the document mentioned preferably made of extruded polystyrene foam. A reinforcing material is a material for the embedding of a reinforcing fabric, wherein the reinforcing fabric may be a coarse mesh of glass fibers with a mesh width of about 5 mm. Further, the term reinforcing layer generally refers to the composite of reinforcing material and reinforcing fabric. In addition, a composite thermal insulation system may have an adhesive for fixing the insulation board to the building wall adhesive. Alternatively or additionally, the insulation board can also be fixed mechanically, for example with expansion dowels or with a rail system on the building wall. On the reinforcing layer may also be applied a primer and / or responsible for the weather protection and the appearance of the facade decking. Finally, the top coat can also be painted with an exterior color. The entire layer over the insulation board is referred to in the cited document as a multi-layer reinforced plaster coating. After DE 32 02 960 A1 For the preparation of the reinforcing compound, a mortar-like mixture of cement and an adhesive or a putty based on plastic dispersions is used, to which 20 to a maximum of 50% Portland cement can be added.

After DE 30 40 077 C2 can be dispensed with the use of a reinforcing fabric when applied to an existing foam plastic insulation board a reinforcing compound, in addition to a hydraulic binder, a supplement and common additives also cut, alkali resistant glass fibers with a Texzahl of 20 to 200 g / km and a length of 5 to 33 mm in proportions of 0.3 to 3.0% by volume. With such, applied to a made of a foamed plastic insulation board reinforcing compound, the risk of cracking on the surface of the finished thermal insulation composite system can be reduced because the rigid shell forming reinforcing compound, possibly together with the top coat, practically resiliently adheres to the yielding substrate so that any occurring voltages are reduced.

However, it has been shown that with the from the DE 30 40 077 C2 known reinforcing material at low temperatures an increased risk of cracking and detachment is observed. To solve this problem is in the DE 34 29 251 C2 proposed the use of an applied without reinforcing mesh reinforcing compound, which is bound by a precrosslinked or crosslinkable resin binder, the plastoelastic properties between -10 and + 40 ° C, a glass transition temperature below -15 ° C and an elongation at break at -15 ° C of at least 200%. With such a reinforcing compound cracks can be reliably prevented. However, the plaster construction using this Armierungsmasse is associated with the disadvantage that it is very soft and sticky at higher outdoor temperatures and thus tends to fouling. In addition, the high proportion of plastic deteriorates from the DE 34 29 251 C2 Known Armierungsmasse the fire-technical and ecological properties of a plaster structure produced therewith.

To improve the fire-technical and ecological properties of thermal insulation composite systems has increasingly been increasingly adopted to replace the known insulation boards made of a foamed plastic by mineral insulation boards. A produced using a mineral insulation board thermal insulation composite system according to the preamble of claim 1 is for example in the DE 42 16 204 A1 specified. According to this document mineral thermal insulation boards from 15 to 25 mass% of a lime binder, 50 to 70 mass% of silica, 0 to 10 mass% of a porous aggregate, 0 to 2 mass% of other additives and a water-consisting radical can be prepared ,

In in the DE 42 16 204 A1 specified thermal insulation composite system is applied from the mineral insulation boards a plaster layer on a mineral cleaning material containing a pore-forming agent and / or a porous aggregate and a water-repellent. In the proposed in this document thermal insulation composite system, a permanent crack-free plaster layer is to be ensured by the fact that between the thermal insulation boards and the plaster layer embedded with putty Armierungsgewebe is provided.

Process for the preparation of similar mineral thermal insulation panels are in the EP 0 816 303 A1 . DE 44 08 088 A1 . DE 43 39 137 A1 and DE 43 27 074 A1 described.

at the production of thermal insulation composite systems However, using the known mineral insulation boards, it has shown that cracks on the outside surface of the Thermal insulation composite system only then reliable can be prevented if a reinforcing fabric in the possibly also the outer cover layer forming reinforcing material is embedded. By using such Armierungsgewebes it is achieved that shrinkage and swelling processes are not lead to deformations of the plaster shell, the larger areas the outer surface of the Thermal insulation composite system capture, but only occur in small sub-areas, in about the Mesh size of the fabric correspond. These deformations in subareas a few square millimeters are so small that they are not to cracks to lead and therefore neglected can be while the deformations are great Surfaces several May be millimeters and, accordingly, cracks of this magnitude can occur.

The Attaching this Armierungsgewebes embedded in the reinforcing compound However, it is associated with a lot of manual work on site.

In view of the problems in the prior art, the invention has the object, a thermal insulation composite system, for example, in the DE 42 16 204 A1 To provide the type described, which can be quickly and easily fixed to a building wall while avoiding cracking.

to solution This object is achieved in the characterizing part of claim 1 proposed refinement of the known thermal insulation composite system proposed.

Usual thermal insulation composite systems have a plurality of independent from each other to the building wall specified thermal insulation panels. Surprisingly It has now been shown that the stability such thermal insulation composite systems while reducing the tendency for cracking accessible in the outer area is when the thermal insulation panels not only attached to the building wall, but also directly with each other connected, preferably glued. The increase in mechanical strength of the thermal insulation composite system is thereby achieved by that direct connection of the individual thermal insulation panels a rigid outer shell for the building wall is formed. This outer shell forms a continuous backing for the reinforcing layer, thereby a crack through the otherwise possible Displacements of the thermal insulation boards is avoided relative to each other.

there is in the thermal insulation composite system according to the invention the desired one Avoidance of cracks in the outer surface thereby ensured that not only the thermal insulation panels and the light plaster with respect to their mechanical properties to each other customized but also as an adhesive the light plaster is used to to ensure a consistent behavior of the entire system. Therefore, when using the thermal insulation composite system according to the invention on the use a reinforcing fabric to avoid cracks in the outer surface are dispensed with.

Therefore can the thermal insulation composite system according to the invention under warranty a reliable one Rißvermeidung be set quickly and easily on a building wall. Further contains the mineral light plaster at most small amounts of organic Additives, so that with the inventive thermal insulation composite system also satisfactory ecological and fire protection properties are obtained.

A particularly good adaptation of the hygrothermal deformation properties of the light plaster to the corresponding properties of the lightweight insulation board is achieved when the foam concrete or foam mortar from a binder slurry Water, quartz flour, hydrated lime, cement and possibly a protein or chemical foaming agent is made. Another adaptation the hygrothermal properties of the individual components of the heat insulation composite system according to the invention is achievable, although the mineral light plaster hydrated lime in an amount of preferably 2 to 8% by mass.

in the Regard to the desired insulation properties the thermal insulation composite system according to the invention it is preferred if the lightweight insulation boards have a thermal conductivity of less than 0.05 W / mK.

In order to obtain advantageous mechanical properties of the thermal insulation composite system according to the invention, it has proved to be useful if the lightweight insulation boards a compressive strength of more than 0.3 N / mm ² , an adhesive tensile strength of more than 0.03 N / mm ² , a moisture elongation of less than 1 mm / m, have 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 by penetrating It has further proved to be expedient for water if the lightweight insulation boards of the thermal insulation composite according to the invention are provided with an additional hydrophobic treatment. Process for the preparation of hydrophobic lightweight insulating boards are, for example, in DE 44 08 088 and EP 0 816 303 to which reference is expressly made in this context.

to Improvement of the mechanical properties of a thermal insulation composite system according to the invention It has also proven to be advantageous if the lightweight insulation boards are fiber-reinforced. Can do this organic and / or inorganic reinforcing fibers are used. Particularly preferred is the use of cotton fibers.

Of the Light plaster of the thermal insulation composite system according to the invention may be 30 to 50% by mass of a preferably carbonated fine filler, such as quartz flour or the like. 15 to 35, preferably 25 to 35 mass% a lightweight filler, like natural ones Pumice, perlite, fillite, expanded clay od. Like., 3 to 5 mass% of a polymer dispersion, the organic and / or inorganic reinforcing fibers and optionally additives for achieving the characteristic pudding properties, such as retarders, Setting accelerator, condenser, Anti-foaming agents and / or anti-sedimentation agents and / or anti-shrinkage agents.

Particularly advantageous properties were achieved with a light plaster of the following composition:
20.0 mass% Portland cement (CEM 32.5R)
5.0% by weight of hydrated lime
40.0% by mass of carbonated 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

Of the Cement content of the light plaster is preferably 10 to 30 particularly preferably 10 to 20% by mass. It can instead of Portland cement also Portland limestone cement, alumina cement, Puzzolans or other cements with comparable properties used become.

The thermal insulation board the thermal insulation composite system according to the invention For example, it can be fixed mechanically to the building wall. Can do this for example, system dowels be used. Furthermore, it is also thought to thermal insulation panels use, having a preferably circumferential notch and can be fixed to the building wall with a rail system.

Additionally or As an alternative to the mechanical attachment of the thermal insulation board is also a fixture conceivable with an adhesive. This adhesive may, depending on the nature of the substrate, have mineral and / or organic additives.

The Tendency to crack in a thermal insulation composite system according to the invention can be further reduced when the adhesive with the reinforcing compound is essentially identical, because in this way an adaptation the mechanical deformation properties of the adhesive to the Armierungsmasse and thus also to the thermal insulation board is achieved.

Of the Light plaster of the thermal insulation composite system according to the invention can also form the top layer of the thermal insulation composite system at the same time the possibly still an exterior color is applied. In addition, however, it is also thought of on the the reinforcing mass forming lightweight plaster an additional apply a smooth or structured plaster layer to which also an exterior color is applied. Conveniently, are used to produce the thermal insulation composite system according to the invention adhesives, Light plasters and / or topcoats used, which are also machine are processable.

at the choice of materials for the production of a thermal insulation composite system according to the invention is preferably so proceeded that the fire resistance of the system falls into building material class A2 according to DIN 4102.

at the assembly of a heat according to the invention medämmverbundsystems It has proved to be particularly useful if after fixing and gluing the lightweight insulation boards together at first only a comparatively thin one Location of the light plaster with a thickness of less than about 1 cm, preferably less than about 0.5 cm on the lightweight insulating board is applied and after breaking down the hygric tensions of the first Shift during a second layer of the Anrocknens applied and to obtain the desired equalized overall appearance. The second layer can in the same strength as the first layer or with a smaller layer thickness be applied. With this procedure, during the drying of the first Layer resulting shrinkage cracks by applying the second layer be compensated.

Claims (20)

Thermal insulation composite system with a plurality of thermal insulation panels fixed to a building wall and one on the thermal insulation plates applied light plaster without reinforcing fabric in which the thermal insulation panels in the form of mineral, made of foam concrete and / or foam mortar lightweight insulation boards are formed, characterized in that the thermal insulation panels to form a continuous surface for a Armierungsmasse forming lightweight plaster along horizontal and vertical joints with the light plaster are glued together directly. Method for producing a thermal insulation composite system according to of the preceding claims, in which the lightweight insulation panels fixed on the building wall and forming a continuous Underlay for the one Armierungsmasse forming lightweight plaster directly with the light plaster glued together and then a first layer of the light plaster with a thickness of preferably less than 1 cm is applied to the lightweight insulating board, characterized in that after Degradation of the hygric stresses in the first layer a second Layer of the light plaster is applied to the first layer. Wärmedämmverbundsystem according to claim 1, characterized in that the foam concrete or foam mortar a binder slurry from Water, quartz flour, hydrated lime, cement and possibly proteins or chemical Foaming agents is made. Wärmedämmverbundsystem according to claim 1 or 2, characterized in that the mineral Lightweight insulation panels a Wärmeleitfähikgeit of less than 0.05 W / mK. Wärmedämmverbundsystem according to one of the preceding claims, characterized that the mineral lightweight insulation boards an additional Have hydrophobicization. Wärmedämmverbundsystem according to one of the preceding claims, characterized that the mineral lightweight insulation boards fiber reinforced are. Wärmedämmverbundsystem according to claim 5, characterized in that the reinforcing fibers organic and / or have inorganic fibers. Wärmedämmverbundsystem according to claim 5 or 6, characterized in that the reinforcing fibers Have cotton fibers. Wärmedämmverbundsystem according to one of the preceding claims, characterized that the Light plaster of hydrated lime in an amount of preferably up to 15% by mass contains. Wärmedämmverbundsystem according to one of the preceding claims, characterized that the Light plaster 10 to 30, preferably 10 to 20 mass% of a cement contains. Wärmedämmverbundsystem according to one of the preceding claims, characterized that the Light plaster contains 30 to 50% by mass of a fine filler. Wärmedämmverbundsystem according to one of the preceding claims, characterized that the Light plaster 15 to 35, preferably 25 to 35% by mass of a lightweight filler contains. Wärmedämmverbundsystem according to one of the preceding claims, characterized that the Light plaster contains 3 to 5 mass% of a polymer dispersion. Wärmedämmverbundsystem according to one of the preceding claims, characterized that the Light plaster contains 0.2 to 2% by mass of reinforcing fiber. Wärmedämmverbundsystem according to one of the preceding claims, characterized that the thermal insulation board can be fixed mechanically to the building wall. Wärmedämmverbundsystem according to claim 14, characterized in that the thermal insulation board with one or more system plugs can be fixed to the building wall. Wärmedämmverbundsystem according to claim 14 or 15, characterized in that the thermal insulation board having a preferably circumferential notch and with a rail system can be fixed to the building wall. Wärmedämmverbundsystem according to one of the preceding claims, characterized that the thermal insulation board can be fixed with an adhesive on the building wall. Wärmedämmverbundsystem according to claim 17, characterized in that the adhesive is mineral and / or organic additives having. Wärmedämmverbundsystem according to claim 17 or 18, characterized in that the adhesive is substantially identical to the light plaster.