DE20108612U1 - Facade coating - Google Patents

Description

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Facade coating

The invention relates to a facade coating for facades of buildings using textile fibers in a binding agent, which can be used in particular for the renovation of damaged facades.

Until now, facades have been repaired or renovated using complex technological methods by rebuilding the facade coating.

It is common practice for several binding and plaster layers to be applied one after the other in several technological steps.
In addition, several layers of grid mats are known to be inserted, which are intended to prevent cracking and improve the connection between the individual applied layers.

The disadvantage of these known facade coatings is the high cost of the materials used, such as binding agents, plasters and mesh mats. Another serious disadvantage of coating facades using this known system is the high technological effort in terms of the time required and the high costs incurred by applying different materials multiple times in succession.

Fine plastering compounds with a high gypsum content are also known. The disadvantage of these coatings is that the coating shrinks when it dries, which leads to the formation of cracks. This cracking in turn reduces the durability of the coating. This can even lead to individual pieces of the facade coating becoming completely detached and breaking off.

Facade coatings that are provided with so-called supporting fibers are also known.

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These added fibers serve, according to the state of the art, to bind and stabilize the coating mass.

For example, DE 19700727 describes a coating compound which contains finely ground fibres.

The disadvantage of this coating is that the added fibers become entangled with each other, which prevents the coating from having uniform strength and bonding to the substrate.

Furthermore, DE 4324315 discloses a coating with added fibers, which proposes film-forming, thermoplastic or cross-linkable polymers or copolymers, in particular of vinyl acetate, as binders. This coating has the disadvantage that the added fibers are crushed by the dispersion and no longer bond elastically to one another.

There are also facade coatings known which consist of silicates, starch and silica and are provided with fibres, but these are difficult to use due to their consistency, as the coating does not adhere sufficiently to the substrate and runs off or drips off.

The invention is based on the object of creating a facade coating which adheres reliably to the coated substrate, has an elasticity that prevents cracking at different temperatures and weather conditions and is technologically simple to process.

The problem is solved according to claims 1 to 7 and explained in more detail below.

The facade coating according to the invention consists of mineral-plastic-modified powder raw materials.

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The plastic coating is made of fibers that are arranged in a specific structure to form an elastic bond. The composition of this fiber mixture is selected according to the intended use.

For example, the fiber mixtures for an external coating are determined differently than those for an internal coating.

Thus, the fibre mixture for coating external walls can advantageously be composed in such a way that it consists predominantly of polyester fibres and a small proportion of cellulose fibres.

When coating interior walls, this mixing ratio of fibers can be changed so that a higher proportion of cellulose fibers is selected and the proportion of polyester fibers is minimized accordingly.

To improve the resistance of the coating to external mechanical influences, such as precipitation, quartz sand is added to the mixture.

An adhesive mortar, preferably in powder form, is used as a binding agent for the fibres and the added quartz sand.

The invention will be explained in more detail below using an exemplary embodiment:

A facade coating is put together for use on an external wall on a custom basis, which is defined for an area of one square meter to be coated.

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The facade coating consists, for example, of

70 g of fibres, which, according to their intended use as an external coating, preferably consist of 95% polyester fibres and 5% cellulose fibres 1500 g of powdered adhesive mortar 100 g of quartz sand with a grain size of preferably 0.2.

This evenly mixed dry mixture is only dissolved in just 700 ml of water at the processing site and can be colored to any desired shade using powder dyes.

Dissolving in water at the processing site enables the dry mix to be transported even at the lowest temperatures and reduces transport volume and weight.

Advantageously, the composition of the facade coating according to the invention means that only this small amount of water is required as a solvent, so that the consistency of the facade coating is also advantageously influenced, since only this small amount of water has to evaporate after the coating has been applied. This means that the facade coating takes a comparatively short time to dry.

The dissolved facade coating can be applied to the prepared substrate after approximately 20 minutes of standing time, for example using a plastic smoothing trowel.

It is advantageous to prepare the substrate to be coated using a contact primer as a bonding bridge. 35

Due to the inventive composition of the coating and the low water content, the

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The facade coating sets after approximately 2 hours and the drying time is 4 to 6 hours, depending on the outside temperature.

Advantageously, the composition of the facade coating and the orientation of the fibers make it possible for existing cracks and washouts in the substrate to be coated to be compensated by applying a thicker layer of the facade coating.

Tests have shown that cracks in external walls sealed by means of the facade coating according to the invention did not develop any cracks even after two annual weather cycles and that the thermoelastic changes in the substrate did not cause the facade coating to peel off.

These high elasticity values of the facade coating are advantageously achieved by processing the fiber mixture selected according to the intended use or location into a fiber mixture having a defined structure by means of the known needle water jet process from individual fibers.

A further advantage of this inventive composition of the facade coating is that it meets fire protection regulations.

Claims (7)

1. Facade coating with a defined amount of fillers, binders and fibers, characterized in that the coating contains 5% by volume fibers, 5% by volume quartz sand and 90% binder. 2. Facade coating according to claim 1, characterized in that the fibers lie in a certain structure relative to one another and thereby form an elastic composite. 3. Facade coating according to claim 2, characterized in that the fibers are selected according to the intended use of the facade coating. 4. Facade coating according to claim 1, characterized in that the added fibers are predominantly plastic fibers with a small proportion of natural fibers. 5. Facade coating according to claim 1, characterized in that the added fibers are only plastic fibers. 6. Facade coating according to claim 1, characterized in that the added fibers are only natural fibers. 7. Facade coating according to claim 2, characterized in that the added fibers are brought together into a defined structure by means of the known needle water jet process.