DE202005009301U1 - Web or plate shaped drainage material for capillary breach surface draining of load distribution layer has covering web which is formed by lattice structure with highly open through cross-section between extended lattice elements - Google Patents

Abstract

The web or plate shaped drainage material (2) has a covering web which is formed by a lattice structure (14) with highly open through cross-section between these interbreeding longitudinally extended lattice elements of small strength. The free through cross-sections between the lattice elements is smaller than the grain size of the additives. A water-permeable base layer for displaced coverings are formed from a grain or mono grain or drain plaster.

Description

The The invention relates to sheet or plate-shaped drainage material for capillary-breaking surface training of load distribution layers of screed-like material with the top applied pads, such as ceramic floor tiles Material or concrete materials, artificial or natural stone slabs etc., which is one with a plurality of spaced apart ones its top and in the intermediate areas water seeping from the top into the edge area laxative System of drainage channels forming Vorsrüngen provided, capillary breaking carrier material and a on the in the intended laying position on the top of the substrate applied liquid-permeable cover sheet which spans the open tops of the drainage channels.

Today, balconies or terraces exposed to the weather, as well as rooms where high levels of water seeping through the floor are expected, are usually laid on a screed layer applied to the substrate. Wetness entering through the joints of the tile coverings is thereby dewatered by the screed into an underlying layer of a drainage material which discharges the passing liquid via the drainage channels. For drainage, sheet or plate-shaped drainage materials are used in which the drainage channels are used in a plastic foils molded either from closed-cell foam plastic or inherently rigid, on which a liquid-permeable covering sheet is applied, via which moisture contained or penetrated into the screed is led away into the drainage channels , Such drainage material based on foam plastic is for example in the DE 44 03 875 C2 described. The drainage of such plate coverings by means of a profiled inherently rigid plastic film is inter alia from the DE 40 04 901 C2 known. In the case of these known drainage materials, so-called nonwovens are used as the water-permeable cover, which only liquids but not solid additives can pass in the screed applied in a flowable state.

In In recent years, more and more natural stone coverings on balconies and terraces moved. Frequently, so-called damp spots are reclaimed from the back come in different amounts of acting water. investigations the applicant has confirmed that it is for the achievement of uniformly colored surfaces of absorbent natural stone types Cheap This is on a highly water-permeable Einkornmörtel with coarse-grained To lay split or gravel without fines. Over the joints penetrating water is then hardened by the Mortar layer immediately on the aquifer lowest level - z. B. on the top with an insulation against ingress of Water provided concrete base plate of the balcony or the terrace - dissipated. One Disadvantage of this very water permeable Einkorn- / Monokornmörtel exists in that in these much larger quantities of lime from the binder Cement fired become. Another disadvantage is their proven in investigations poorer drainage in the plane. Ie. penetrated water needed a longer one Leaking time in the mortar layer. The longer the penetrated water remains in these Einkornmörteln, the more serious are the Kalkauslaugungen, as also found in our own investigations has been. This means that optimal solutions for the drainage of such natural stone coverings due the lime release not with drainage mats with a non-woven material top possible are because this enforce or reduces the water vapor permeability becomes. In the medium term, therefore, is a failure of the water-permeable property of nonwovens under single grain mortar layers specified.

Of the Invention is in contrast the object of developing the known drainage materials so that the disadvantages described do not occur, that is, the required dewatering properties also with longtime ones Use to be preserved.

Based on a drainage material of the type mentioned above, this object is achieved in that the cover is formed by a lattice structure with high free passage cross-section between intersecting elongated lattice elements of small thickness, and that the free passage cross-sections between the lattice elements smaller than the grain size of the aggregates of in the laying of the applied deposits on the drainage material in a plastic state aufzubringendem, a water-permeable support layer for the deposits to be laid Einkorn- / Monokorn- or drain mortar. Experiments have shown that due to the larger compared to nonwoven material when passing water between the grating elements available larger passage surfaces, the removal of water into the drainage channels without backflow is so fast that clogging of the passage surfaces by excretion or crystallization of mineral components is not sufficient Time is available, that is, the drainage effect practically does not change over time. On the other hand, smaller than the grain size of the aggregates of the Einkorn- / Monokorn- or drain used for the support layer by the choice of the size of the grid opening Mortar ensures that no solid constituents pass into the drainage channels of the substrate and can clog them over time.

Although the use of lattice structures in the form of glass mesh fabric as a water-permeable cover sheet is already known in connection with the laying of floor tiles in the thin bed ( EP 0 893 553 B1 However, this mesh fabric is formed in direct functional contrast to the claimed drainage material in the size of the grid openings so that the adhesive for attachment to the drainage specific Dünnbettmörtel or adhesive in any case through the mesh fabric into the open-topped channels of the profiled plastic film can pass through. The mesh does not serve as a barrier for the mortar, but for its anchoring and reinforcement of the Dünnbettmörtelschicht after curing.

The Sum of the passage cross-sectional areas of between the grid structure forming intersecting grating elements formed passage openings is the drainage material according to the invention preferably at least 80 to 90% of the lattice structure covered surface of the drainage material.

The Lattice structure can - how mentioned in in a known manner - from a mesh fabric, preferably a glass mesh fabric, are formed.

alternative however, the grid structure may also be integral in the crossing points interconnected grid elements made of plastic be.

In Inventive training can they surface the lattice structure forming the lattice structure hydrophobic properties which, either by choosing a suitable material in combination with a smooth surface texture for the Grid elements or alternatively by a subsequent impregnation the surface can be achieved with a suitable hydrophobic substance.

The provided with the drainage channels support material can - in in a known manner formed by a self-rigid plastic film in which the drainage channels pass through Deformation and profiling of the originally planar sheet material are formed.

alternative also the use of plates or sheets comes from closed cellular foam plastic as a carrier material into consideration.

The Invention is in the following description of an embodiment explained in connection with the drawing, in which:

1 an isometric view of a portion of a drainage material according to the invention, wherein the cover web formed as a grid structure is still shown separately above the top of the actual carrier material;

2 a view on the front side of the drainage material, seen in the direction of the arrow 2 in 1 ; and

3 a vertical sectional view through a portion of an occupied with ceramic tiles, drained by means of the inventive drainage material terrace or balcony floor.

That in the 1 and 2 in its entirety with 10 designated drainage material according to the invention consists of a profile web made of an originally flat thin stiff plastic film 12 , on whose top then after their profiling a - in 1 above the profile track 12 illustrated - liquid and gas permeable cover 14 from a - existing in the case of glass lattice mesh - lattice structure is adhesively applied.

The profile track 12 has at a close distance parallel strip-shaped and successively each in an opposite sense to the previous strip-shaped portion angled sections 16a . 18 . 16b on, which alternately on the top and bottom open open drainage channels 20 and 22 form. The channels 20 and 22 are by laterally spaced apart in the web direction extending, the lateral boundaries 18 and the floor 16b the channels opening on the upper side open 20 passing slot-shaped openings 24a and 24b connected so that from the top into the channels 20 inflowing water through the openings 24a . 24b also in the channels 22 can transgress and so on the channels altogether 20 . 22 an outflow cross-section is formed, which only by the material thickness of the thin strip-shaped sections 18 is narrowed down. It is thus almost the entire space between an applied to the top of the grid structure support layer for the flooring to be laid as a drainage cross section available.

To increase the carrying capacity of the carrier layer are the channels 20 and 22 each bounding strip-shaped sections 18 with essentially over their entire embodiments still through the drainage channels 20 bridging and in larger intervals of these channels in the longitudinal direction staggered stabilizing Webs connected.

The intended as a grid structure glass mesh fabric 14 is - for example by gluing - adhering to the upper strip-shaped sections 16a the profile track 12 attached. The grid openings formed between the substantially rectangular crossing warp and weft threads are sized so that their passage area is relatively large on the one hand in relation to the total area and on the other hand, at least slightly smaller than the particle size of the aggregates of the formation of the support layer einkorn- / Monokorn- or drain mortar to be applied, which has finely divided additions in the form of grit or fine gravel with grain sizes in the range of 2 to 8 mm. The aggregates are treated with low-cement cements (Portland pozzolan or special cements) with a low water-cement factor of about 0.35 as a binder to the mortar. The binder content of the mortar is then about 250 to 300 kg / m ³ . The set mortar layer has due to the remaining between the grit or gravel particles continuous cavities on a high permeability to water, so that the rapid passage of inflowing water is ensured in the drainage channels of the drainage material.

In 3 is the application of the drainage material according to the invention, which can be pulled in the present case in the form of a web from the roll, for draining a covering of ceramic plates 30 on the concrete base plate 32 a terrace or a balcony. The web-shaped drainage material 10 is on the previously by a gasket layer 34 against ingress of water protected top of the base plate 32 unrolled. On the mesh fabric 14 of the drainage material 10 is then as a base layer 36 freshly prepared Einkornmörtel piled up and deducted. The ceramic plates 30 are then laid on the base layer top. It is expedient during the laying process on the undersides of the plates 30 even a thin layer of setting material as a mortar adhesive bridge spatulated. The joints between the plates 30 can then - as in the case shown - be grouted. Alternatively, they may remain open or - if flooding of contaminants is to be feared - be filled with coarse-grained, water-permeable material.

Claims (8)

Sheet or plate-shaped drainage material ( 10 ) for the capillary-type surface training of load-distribution layers of screed-like material with coverings to be applied on the upper side, such as floor slabs ( 30 ) made of ceramic material or concrete materials, artificial or natural stone slabs, etc., which is a with a plurality of spaced apart from its top and emerging in the intermediate areas from the top zutretendes water in the edge area leaching system of drainage channels ( 20 ; 22 ) capillary-forming carrier material provided on the projections and provided on the applied in the intended laying position on the top of the carrier material liquid-permeable cover sheet which spans the open tops of the drainage channels, characterized in that the cover sheet of a grid structure ( 14 ) is formed with high free passage cross-section between intersecting elongated lattice elements of small thickness, and that the free passage cross-sections between the lattice elements smaller than the grain size of the aggregates of when laying the coverings ( 30 ) on the drainage material ( 10 ) are applied in a plastic state, a water-permeable support layer for the Einkorn- / Monokorn- or drain mortar to be laid. Drainage material according to claim 1, characterized in that the sum of the passage cross-sectional areas of the between the grid structure ( 14 ) forming intersecting grids formed passage openings at least 80 to 90% of the grid structure ( 14 ) covered surface of the drainage material ( 10 ). Drainage material according to claim 1 or 2, characterized in that the lattice structure of a mesh fabric ( 14 ) is formed. Drainage material according to claim 3, characterized in that the mesh fabric ( 14 ) is a glass mesh. Drainage material according to claim 1 or 2, characterized in that the lattice structure ( 14 ) is formed by in the crossing points integrally interconnected grid elements made of plastic. Drainage material according to one of claims 1 to 5, characterized in that the surfaces of the lattice structure ( 14 ) have lattice elements hydrophobic properties. Drainage material according to one of claims 1 to 6, characterized in that the carrier material of a self-rigid plastic film ( 12 ) into which the drainage channels ( 20 ; 22 ) are formed by deformation of the originally planar sheet material. Drainage material according to one of claims 1 to 6, characterized in that the carrier material of plates or sheets of closed cell foam plastic is formed.