DE102014014438B4 - Flooring for rooms - Google Patents

Abstract

Padding substructure for rooms, in particular under floor coverings, wherein the padding substructure has at least one lining underlay layer (2) of corrugated material (1) and this or at least one of several pad substructure layers (2) is filled with a filling material (3), wherein the corrugated material (1 ) perpendicular to the base surface (4) and top surface (5) of the lining underlay layer (2) and wherein the corrugated material (1) alternately a corrugated (1 ') and at least one planar layer (1' '), characterized in that the Filling material (3) of at least one undercoating layer (2) is bitumen.

Description

The invention relates to a padding base for rooms, in particular under floor coverings, wherein the padding underlay has at least one underbody layer of corrugated material and this or at least one of several pad underlay is filled with a filler, wherein the corrugated material is perpendicular to the base and top surface of the pad underlay and wherein the corrugated material alternately has a corrugated and at least one planar layer.

Such a pad base is off WO 2011/072867 A1 known. It has between two cover layers standing corrugated layers of non-brittle natural or synthetic mineral wool filled pulp polymer along with binder. The corrugated layers arranged at the edge of the padding base are covered by a flat layer which is arranged normal to the cover layers and connects them together. The well cavities formed between the corrugated layers are filled with a mineral granulate. However, this is not suitable for wet rooms, because the moisture can penetrate between the granules and can cause mold there.

Furthermore, from the DE 10 2008 055 978 A1 is a covering foundations known. There are surfacing layers of corrugated material, such as corrugated cardboard taught in which the corrugated material along the base and top surface of the lining underlay layer runs. The wave paths of the corrugated material may be filled with filler material, for example sand, quartz or silicon. Due to the layer course of the corrugated material, this has, especially if it is unfilled or not completely filled, no high stability. It is difficult to fill due to the long and narrow cavities and the insulation is not optimal.

There are also honeycomb panels are known in which the honeycomb are filled from above with a filler. However, these have the disadvantage that they must be made with a mold that includes the honeycomb shape. The smaller one configures the honeycomb for reasons of stability, the greater the effort for the mold and the plate production.

The invention has for its object to develop a padding substructure of the type mentioned in such a way that it is easy to produce, has a high stability and is waterproof.

The object is achieved in that the filling material is at least one underlay bitumen bitumen.

The padding substructure is versatile. It can be used not only for floors but also for walls and ceilings. Either only for insulation or with facilities for heating or cooling.

Due to the alignment of the corrugated and flat material, which is perpendicular to a possible load, this has a very high load-bearing capacity, even if it is not or not yet filled with filling material. Since the cavities are very short due to the vertical orientation, it is very easy to fill them completely. Different materials are possible as filling material. This filling can already be done in the manufacture of prefabricated panels. But it can also be done after the installation of not yet filled plates on site, as without much effort in a simple way a pouring is possible.

Expediently prove the corrugated material is constructed such that alternately a corrugated and a flat layer joined together, for example, are glued. Alternatively, a corrugated layer can be joined together on both sides, each with a flat layer. Thereafter, by the joining together of strips of this corrugated cardboard-like designed basic element, the open-top structure is constructed areally. The vertical layers, alternately wavy and even, lead to a particularly high stability and allow a large load on a floor, which is equipped with this base pad. In this case, the corrugated material with the flat layers as corrugated as a piece of goods can be easily and inexpensively, either equal to strips according to the thickness of the desired undercoat layer or large area, and then to cut the strips according to the desired thickness of the lining underlay. These strips can be easily joined together and optionally glued together to produce the desired surfaces, such as plates. So no mold is needed as in the production of a honeycomb form. By combining the corrugated with the flat layers of material, a higher stability is achieved than in the known honeycomb panels.

As filler bitumen is provided. The bitumen, especially if it is pure bitumen, is easily fluid liquefiable or can be in this state - even after the production of the same by distillation of petroleum - deliver. When the bitumen solidifies, it has a high thermal insulation. It is free of cavities after processing, especially without pores and has excellent internal insulation, comparable to rubber. The impact sound insulation at 20 mm is approximately 8 to 12 dB. By pouring the corrugated material with the plane layers with the bitumen of the Covering also waterproof, if it was not the non-poured material before.

The bitumen is a by-product in the industrial processing of crude oil, it is thus produced with low energy consumption and without additional environmental impact. It has no harmful components and can easily be recycled.

For pouring the corrugated material with the planar layers pure bitumen is preferably used, since this is fluid enough from 160 ° C for the pouring out of the cavities of the material. Cellulose is expediently used as the corrugated material, preferably with a wood content of 98%. This material withstands heat by pouring pure bitumen. Conveniently, a water-repellent material is used that complies with the TAPPI test, a wet burst test. The bitumen can be enriched with sand, which further improves the insulation.

The invention provides the following developments:
But instead of the hot bitumen cold bitumen can also be used, then no temperature resistance of the corrugated material and the intervening planar layers is required.

It is expedient if prefabricated panels are produced, which then only have to be laid for installation. It is possible to pour these plates in the prefabrication already with the filler, such as the bitumen, or you can lay the plates unausgegossen to then pour them out on site. In order to prevent leakage of the filling material on the base surface of the perpendicular material during the casting of the bitumen, there may be provided a bottom layer.

The slab according to the invention can also be configured well as a floor heating: For this purpose, it is provided that the perpendicular material has grooves on the top surface, are inserted in the heating pipes. Preferably, the material is covered before laying a floor covering on the pad base with a stable glass fiber layer, for example, such as those from the DE 20 2012 103 802 U1 is known. The heating pipes can be used in the hot season for cooling, for example, when cold water is passed.

Another possibility of a floor heating is that above the vertical corrugated and flat material is a layer of electrical conductors for heating. This can be designed so that the heating is designed for a low-voltage range, for example for 24 volts, so that the operation can be carried out directly with self-generated solar power.

The padding substructure may consist of a layer of vertical corrugated and flat material or of several paving base layers. The latter is particularly advantageous in floor coverings, for example, if a stronger footfall sound insulation is desired. In order to apply several paving base layers, it is proposed that there be a horizontally extending intermediate layer between the paving base layers. Such an intermediate layer allows the underlying layer to have other or no filler. This results in floor coverings with the highest insulation, since such an air space allows an even stronger footfall sound insulation. In such an embodiment, the high stability of the perpendicular material is of particular advantage. In this case, even a non-poured or filled with bitumen or other material pad lining layer of vertical material is still so stable that it can be used in a heavy load area, for example in an area that is traveled by vehicles. As a result, the covering foundation according to the invention can be used even in production rooms of factories.

Of course, it is also possible to use any other paving base layers, for example, it is proposed to arrange a layer with good heat-conducting material over the heating pipes during the laying of heating pipes and / or electrical conductors in order to allow a uniform distribution of the heat over the floor surface.

The invention will be explained with reference to embodiments shown in the drawing. Show it

1 a simple embodiment of the substructure according to the invention and

2 an embodiment showing several possible developments.

1 shows a simple embodiment of the substructure according to the invention, as he is laying especially under floor coverings. Of course, however, other applications, such as wall insulation possible. The simplest embodiment is that a lining undercoat layer 2 made of corrugated material 1 is constructed, with a corrugated layer 1' and a flat layer 1'' alternate, so the corrugated material 1 and the flat layer 1'' perpendicular to the base 4 and top surface 5 run. This makes it possible to use this underbody layer 2 in a simple way from above with bitumen as filling material 3 fill out.

2 shows an embodiment showing several possible developments. Again, the basic element is the corrugated material 1 alternating with a flat layer 1'' that with filler material 3 which is bitumen filled. Under this base coat 2 there is a bottom layer - or if, as shown, another undercover layer 2 follows, - an intermediate layer 10 , under which then another underbody layer 2 is arranged. To increase the insulation even more, this underbody layer can 2 be designed as an unfilled layer, so that the impact sound insulation is increased by the air space.

For underfloor heating, the top underfloor insulation layer is 2 with grooves 6 equipped, in which heating pipes 7 run so that the entire floor is designed with pipe loops. About this underbody layer 2 with the heating pipes 7 there is a location 11 Made of highly thermally conductive material to those of the pipes 7 distribute the heat evenly. In addition, there is a layer over it 9 arranged with electrical conductors for heating, which is suitably operated in the low voltage range, for example with solar power. An overlying fiberglass layer 8th is designed as armored tissue, and protects the structure from damage. This is finally the desired flooring 12 laid.

Of course, the indicated paving base layers can 2 also be constructed in other combinations, and it would also be possible, further paving Unterbauschichten 2 insert, such as a corrugated material 1 , which is filled with other material, such as sand, and thus leads to the additional weight due to the high weight. It has the corrugated material 1 the advantage that a filling with other material by the vertical arrangement of the material is much easier than in a layer structure according to the above-mentioned prior art.

LIST OF REFERENCE NUMBERS

1

corrugated material

1'

wavy layer

1''

even layer

2

Base underlay made of corrugated material

3

filling material

4

Base area of the underbody layer

5

Top surface of the underbody layer

6

groove

7

heating pipes

8th

glass fiber layer

9

Layer with electrical conductors for heating

10

interlayer

11

Layer of good heat conducting material

12

Flooring

Claims (14)

Floor covering for rooms, in particular under floor coverings, wherein the covering base at least one undercoat layer ( 2 ) of corrugated material ( 1 ) and these or at least one of several paving base layers ( 2 ) with a filling material ( 3 ), the corrugated material ( 1 ) perpendicular to the base ( 4 ) and top surface ( 5 ) of the underbody layer ( 2 ) and wherein the corrugated material ( 1 ) alternating a corrugated ( 1' ) and at least one level layer ( 1'' ), characterized in that the filler material ( 3 ) at least one underbody layer ( 2 ) Bitumen is. A pavement according to claim 1, characterized in that the bitumen is hot bitumen and wherein the corrugated material ( 1 ) and the planar layers ( 1'' ) are selected such that they withstand the temperature of low-viscosity bitumen. Covering foundation according to claim 2, characterized in that the bitumen is enriched with sand. Covering foundation according to claim 1, characterized in that the bitumen is cold bitumen. Covering structure according to one of claims 1 to 4, characterized in that the corrugated material ( 1 ) and the planar layers ( 1'' ) are made of cellulose. Covering structure according to one of claims 1 to 5, characterized in that the corrugated material ( 1 ) and the planar layers ( 1'' ) at the base ( 4 ) are provided with a bottom layer. Covering structure according to one of claims 1 to 6, characterized in that it is assembled from prefabricated panels. Covering structure according to one of claims 1 to 6, characterized in that the corrugated material ( 1 ) with the plane layers ( 1'' ) laid in the form of plates and then poured with bitumen. Covering structure according to one of claims 1 to 8, characterized in that the corrugated material ( 1 ) with the plane layers ( 1'' ) at the Covering area ( 5 ) Grooves ( 6 ), in the heating pipes ( 7 ) are inserted. Covering structure according to one of claims 1 to 9, characterized in that the corrugated material ( 1 ) with the plane layers ( 1'' ) of a stable glass fiber layer ( 8th ) is covered. Covering structure according to one of claims 1 to 10, characterized in that above the corrugated material ( 1 ) with the plane layers ( 1'' ) a layer of electrical conductors ( 9 ) is located for heating. Covering structure according to one of claims 7 to 11, characterized in that, in the case of several covering layers ( 2 ) of corrugated material ( 1 ) with even layers ( 1'' ) in each case between the paving base layers ( 2 ) a horizontally extending intermediate layer ( 10 ) is located. A pavement according to claim 12, characterized in that the lowest paving base layer ( 2 ) has no filling material. Covering according to one of claims 9 to 13, characterized in that above the heating pipes ( 7 ) and / or electrical conductors ( 9 ) a layer of good heat conducting material ( 11 ) is located.

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