DE3932743C1 - Sound damping plaster compsn. - of quartz sand and poly-satd. polybutadiene binder - Google Patents

Abstract

Plaster comprises a mixture of 97wt.% quartz sand of which half has a particle size of 0.063-0.25mm and half has a particle size of 1.25-2mm and 3wt.% of a bonding agent which is a polyunsatd. polybutadiene. USE/ADVANTAGE - The plaster has hollow spaces giving it good compression strength, flexibility and ability to suppress the sound of feet making it useful as a covering for underfloor heating apparatus.

Description

The invention relates to a screed and its use, consisting of a hardening mass after application a mixture of a quartz sand and a polymer as a bandage medium, the proportion of the quartz sand mixture in the mixture is approximately 97% by weight and that of the binder is approximately 3% by weight.

Through the brochure "SME-H heating screed" from System-Heiz technik Elsner GmbH, Hamm, is a generic screed in the Known in connection with underfloor heating. This screed consists of 97% by weight of a quartz sand mixture and 3 % By weight of a polymer with additives as a binder. The Quartz sand mixture has a grain size range of 0.5 1.25 mm, whereby sands are used with an SiO2 Content up to 99%. The height of the heating screed be supports 40 mm from the insulation to the top edge of the raw floor. This well-known heated screed has proven itself, however has been shown that the grain size range used disadvantageous in terms of compressive strength and bending tensile strength turns out.

The invention is based on this prior art the task, a generic screed as well to indicate its use, which is not just about a good compressive strength and bending tensile strength, but  also about a significantly improved impact sound behavior.

It has surprisingly been found that this task fiction is solved according to that quartz sand in a mixture of approx. 50% in the grain size range of 0.063-0.25 mm and approx. 50% in the grain size range of 1.25-2 mm use fin det, and as a polymer a polyunsaturated polybutadiene serves. A ver equally high pressure and bending tensile strength achieved. By gluing the grains of sand together, namely both the large and the small grains arise homogeneous mixture, the individual components of which lie together gene and are connected. Because of the not eveni The grain and shape of the grains of sand do not always stick to them close together, d. H. by their different sizes cavities not filled with sand and binder are formed rooms. Through these cavities, the impact sound insulation we considerably improved as they absorb the impact sound. The impact sound insulation measure is +17 db depending on the ceiling structure. The cavities also increase the possibility of deflection the screed. Due to the high elasticity of the The bonded grains of sand can bind into the front press in any cavities. This results in the possibility a comparatively high deflection of the bond ten sand structure. It is also covered with a screed  specified grain size ranges possible for the first time, screed thickness 20 and 30 mm. With the as a binder Use polyunsaturated polybutadiene han it is a commercially available binder.

The invention also extends to the use of the Screed in old building renovation in a layer thickness of 20 -30 mm, if necessary with the interposition of a commercially available Release film. Due to its structure by the chosen grain size ranges it is possible to compare the screed wise low height, which is particularly the case with Old building renovation has a positive effect, since then the existing foot floors can be maintained and only an adjustment the door heights must be carried out.

The screed with the composition according to the invention is suitable is also beneficial for large-scale buildings in one ge velvet thickness of at least 45 mm, the surface with can be provided with an abrasion-resistant layer, which in particular which is advantageous when used in industrial companies.

According to the screed also serves to cover Underfloor heating with an outer diameter of the used Pipes of 2-5 mm and with a wall thickness of approx. 1 mm, one Coverage of 20-30 mm is provided. The screed is in  fresh condition can be heated immediately, so no waiting times are more needed. This results in an immediate white processing for the topsoil. As a result of the special The structure of the screed can now also be used for pipes with a Outside diameters of 2-5 mm are used, their over coverage is comparatively low, so that not only a quick heating up results, but also a good start adaptability to changing outside temperatures.

It is also possible to use the screed according to the invention Covering underfloor heating with an outside diameter pipes of up to 20 mm and wall thicknesses of approx. 2 mm to be used, the pipes are integrated in the existing insulation and the screed has an overlap of 20-30 mm. For this too Execution apply the same advantages mentioned above.

The same applies to the use of the screed in a Underfloor heating with an outer diameter of the pipes of 5-10 mm and a wall thickness of 1-2 mm, the Total screed thickness including pipe thickness is about 30 mm.

There are further advantages of the screed according to the invention in that this is neither a static reinforcement made of concrete  steel mats required, plasticizing additional measure materials.

The screed according to the invention also offers the possibility of that it is placed on a surface, such as concrete, an old solid screed, asphalt or a solid Floor covering, if necessary using a polyethylene Release film, can be placed. Furthermore, the Screed as a seamless covering up to a size of approx. 60 sqm can be used. Rapid curing at 20 degrees C. The outside temperature is up to approx. 54 hours. With immediately tiger heating of an underfloor heating provided curing within 24 hours.

The screed according to the invention is also suitable for renovation of terrace areas and the creation of new terraces, where there is water permeability and thus frost places are avoided.

It is also possible to use the screed for better identification to be provided with a coloring, for example also with fluorescent substances, so that even in the dark shines.

The screed can also advantageously be used to cover underfloor heating systems which are laid in or on thermal insulation, the total thickness of the screed being at least 45 mm. In this embodiment too, the surface can be provided with an abrasion-resistant layer. The thermal insulation has a pressure load of at least 30 t / m ² . This design gives the advantage that the heating pipes do not - as before - must be placed under or in the concrete base - but can be brought on or in the thermal insulation. This version of preferably indie heated screed has the advantage of good thermal insulation compared to the ground and better heat distribution in the room to be heated. However, this can also be used in large buildings such as car dealerships, churches, museums etc.

To simplify handling, it is also proposed that that the screed is used in the form of prefabricated panels finds, which is preferably by means of a permanently elastic Adhesive to be laid.

Claims (12)

1. Screed from a hardening mass after application of a mixture of a quartz sand and a polymer as a binder, the proportion of the quartz sand mixture in the mixture being approximately 97% by weight and that of the binder approximately 3% by weight , characterized in that quartz sand is used in a mixture of about 50% in the grain size range from 0.063-0.25 mm and of about 50% in the grain size range from 1.25-2 mm, and as a polymer a polyunsaturated polybutadiene serves. 2. Use of the screed according to claim 1 in the Alt building renovation in a layer thickness of 20-30 mm. 3. Use of the screed according to claim 1 for large areas buildings with a total thickness of at least 45 mm.   4. Use of the screed according to claim 3, wherein its surface is provided with an abrasion-resistant layer. 5. Use of the screed according to claim 1 for covering of underfloor heating with an outside diameter of pipes of 2-5 mm and a wall thickness of approx. 1 mm, with a coverage of 20-30 mm. 6. Use of the screed according to claim 1 for over Covering underfloor heating with an outside diameter pipes of up to 20 mm and wall thicknesses of approx. 2 mm and integrated in the insulation pipes, with an overlap of 20 mm-30 mm. 7. Use of the screed according to claim 1 for over Covering underfloor heating with an outside diameter water of the pipes of 5-10 mm and a wall thickness of 1-2 mm, and an overlap of about 20 mm, the The total thickness of the screed is approx. 30 mm. 8. Use of the screed according to claim 1 for covering of underfloor heating, which in or on a thermal insulation are laid, the total thickness of the screed at least Is 45 mm.   9. Use of the screed according to claim 8, wherein its surface is provided with an abrasion-resistant layer. 10. Use of the screed according to claim 8, wherein the thermal insulation has a pressure load of at least 30 t / m ² . 11. Use of the screed according to claim 1 in the form of before manufactured plates. 12. Use of the screed in plate form according to claim 11, using a permanently elastic adhesive are misplaced.