DE19507175A1 - Incline forming system for balconies, terraces etc. - Google Patents

Abstract

The system comprises surface mounted elements (30) for rain water etc. disposed, which can be so laid as to form a surface with a min. inclination for rain water etc. flow. The elements consist of a thermally insulating material. In the element surfaces are formed mutually parallel recesses (34), extending in the direction of the incline, forming top drain ducts. Pref. the elements are made of hard foam with closed bores. The lower drain ducts may be formed by parallel, elongated, channel-like recesses (36).

Description

The invention relates to a slope system for balconies, ter breeds and Like. With slope ele to be applied on the top elements which can be laid in such a way that they together form a Surface with the for draining liquids, esp special water, necessary minimum inclination.

Such gradient systems are known. For balconies, terraces sen u. Like. The top should have a certain inclination zen so that liquid, such as. B. rainwater or washes It can run off and does not lead to puddle formation comes as these can cause water to enter the under layers penetrate the usable area, which differs which may have undesirable effects: the temperatures it can happen that the penetrated Water freezes and the surface breaks open. Can too it can happen that by the penetrated water Mold forms below the usable area.  

The minimum slope can be created in different ways will. Two types have proven particularly effective, näm Lich the generation of the inclination by means of a screed on the other hand or the generation of the inclination by means of a Ge falls system on the other hand. In the In the first way, the liquid screed is removed conditions that the desired inclination results. This is ever but especially with those that protrude from a house wall Balconies are not without problems. It also needs to be generated a significant amount of screed what the total weight of the balcony is considerable increases. Therefore, have increased in recent years so-called slope systems, which are generally enforced consist of slab-shaped gradient elements that are laid the desired inclination. On the inclined surface che can then be the actual wear layer of the balcony, the Terrace or the like can be applied. Both a thin screed layer applied and tiles laid will. This is left to the choice of the skilled person who choose the best wear layer for each individual case becomes.

However, a problem with the known slope systems is that it does not penetrate water through the wear layer can derive. Therefore, the wear layer itself has to abge be sealed. This seal can, however, in the course of Time will leak, allowing water through the wear layer can penetrate, leading to the problems described above leads.

Another, more and more conscious in recent years his particular problem with balconies is that hehebli the supporting plate in connection with the house dissipates heat and thus cools the heated ten apartments.

Proceeding from this, the object of the invention is to specify a gradient system of the type mentioned at the beginning, on the one hand, those provided on the gradient system Layers drained, but at the same time a warmth me insulation of the support plate, in particular a balcony, allowed.

This task is solved by a gradient system in which the elements made of thermally insulating material are and where on the top of the slope Ele elements parallel to one another in the direction of the slope elongated recesses are incorporated, which Form drain channels.

In addition, they can also be at right angles to those in Gradient device extending drain channels spaced apart Cross channels must be incorporated, which is a water drain also to the side, for example to the side edge enable balconies.

The invention has the advantage that the gradient elements in Interplay the availability of a slope an arbitrarily shaped surface of a balcony or terrace breed, but also a flat roof or a roof terrace and the like., and at the same time the later on applied wear layers, such as. B. screed, tiles or similar drain and so frost breaks and mold formation ver hinder and the underlying layers, usually so a support plate, especially a concrete support plate, thermally insulate and avoid heat loss.

These gradient elements can advantageously be made of foam, in particular rigid foam. As special The use of closed has been advantageous porous foam plastic proved that this is no moisture action can penetrate through the individual elements. Foam plastic also has the advantage that it is ge  low weight has the necessary resistance to indentation, so that on the slope elements further layers, whereby un ter the term "layer" here also a covering with tiles or the like is understood, can be applied.

This can also prevent moisture penetration be changed that the top of the slope elements with egg ner waterproof film is coated, for which purpose one that can be applied in liquid form and after application setting "liquid film" can be used.

In an advantageous development of the invention, the Bottom of the slope elements parallel to each other fende, channel-like recesses (lower drain channels) be worked. These should preferably be a cross have a cutting surface that is smaller than the cross intersection of the upper drain channels. This allows a drying out of those under the gradient system Layers, in particular the concrete of a base plate, without reducing the thermal insulation effect, because the small cross section ensures that moisture can evaporate, but there is no draft below of the gradient system is coming.

Depending on the type of surface on this gradient system provided usable surface, it can be useful to Cover sheet made of water-permeable fleece, open grille fabric or other comparable materials ren. On the one hand, this cover sheet gives one over it layer, especially a mortar or screed but also the necessary layer of a tile adhesive layer Stop, so that it does not penetrate the drain channels and it clogged. On the other hand, such a cover sheet also have a filter effect by the top Layers of penetrating water before entering the Drain channels filter and so pollution and clogging prevents drain channels.  

The individual slope elements can be particularly well integrated fold to a closed total area if they in plan view a substantially rectangular shape have. It can easily and quickly do the usual even rectangular balconies, patios, flat roofs and. the like with slope elements so that the slope ele elements together a closed, the desired area of the balcony or the like. Covering surface, where that are integrated into the individual gradient elements processed drain channels adjacent to the drain channels of one ten element so that there is a total of one system from to the edge of the balcony, the terrace, the flat roofs u. The like. Reaching channels. The have individual slope elements all used to run rivers liquids, especially water, necessary minimum inclination, white However, different thicknesses such that two or more slope ele laid in the direction of the drain channels elements together like a single gradient element ben inclination.

The slope elements in their marginal areas are advantageous Chen so elaborated that two are misplaced with one of its circumferential sides touching slope ele partially overlap elements in the area of these pages. These Overlap ensures that simple and easy to do laying way between the individual slope elements the gradient system is always largely or even completely watertight connection can be established. also can be glued in the overlap areas Gradient elements are made.

Further details and advantages of the invention emerge from the following description of the figures in Verbin tion with only the exemplary embodiments Drawings, which shows:  

Fig. 1 is a partial cross section of a building protruding balconies, an inventive gradient system is laid on wel chem, the section being parallel to the building front and the building facing away part is shown of the balcony; and

Fig. 2 shows a partial cross section of another balcony, on which another slope system according to the invention was laid ver, the section extending perpendicular to the front of the building.

In Fig. 1, a gradient system consisting of several gradient elements 10 is laid on the support plate 12 of a balcony in such a way that an inclined surface extending from the front of the building to the outside of the balcony facing away from the building results. On the top of the slope elements 10 mutually parallel recesses in the slope direction are incorporated as drain channels 14 . These upper drain channels 14 run in the view shown here as well as the inclination parallel to the viewing direction, that is, into the drawing, with the dashed line indicating the outer edge of the slope elements 10 facing away from the building and the mouths of the drain channels 14 are. On the underside of the gradient elements 10 , channel-like recesses running parallel to one another are incorporated as lower drain channels 16 , which in this exemplary embodiment are aligned parallel to the upper drain channels. The two slope elements 10 shown in this figure, which only shows a section of the balcony, have been provided with hatching of different line spacing to make it clear that there are two individual complementary elements. Both slope elements 10 are made of the same mate rial. They have a substantially rectangular shape in plan view and are worked out in their edge areas so that the two slope elements 10 shown here partially overlap at their abutting edge 20 and thus form a step fold. A cover sheet 18 made of water-permeable fleece is laminated onto the slope elements 10 , on which the tiles 22 are then laid by means of a tile adhesive, mortar, screed or the like which is not shown to the person skilled in the art. It should be emphasized at this point that on this nonwoven cover 18 can also be added a grid fabric which is also known per se, which is particularly advantageous if a thin layer of mortar is to be applied to the slope system. As already mentioned, the person skilled in the art can apply any covering that appears appropriate to him in the individual case to the slope system according to the invention, it also making sense to laminate a mesh fabric directly onto the slope elements 10 and to dispense with the covering fleece 18 .

In FIG. 2, the downslope elements 30 on the balcony-supporting plate 32 are moved such that the position indicated by the gestri smiled line in the top of the gradient-Ele elements 30 incorporated upper drain passages 34 of a non-illustrated Facade , which would be on the right edge of the drawing, to the left edge of the drawing and thus to the outer edge of the balcony support plate 32 facing away from the building. In addition, the slope elements 30 have lower drain channels 36 which, in this exemplary embodiment, run at right angles to the upper drain channels 34 . The gradient-elements 30 are in their edge preparation surfaces so devised that two touching in the laid state, each with one of its peripheral sides downslope Ele to elements 30 partially overlap in the region of these sides, so that their abutting edges 40 each form a stepped profile. The individual slope elements 30 all have the same inclination, but have different thicknesses such that the thin end of one element corresponds to the thick end of the next thinner element, so that the elements can be relocated to a stepless overall system, of course both the upper and lower drain channels 34, 36 as elements in each gradient-Ele incorporated 30 such that they align with one another when installed and a single channel can extend over several gradient elements 30th In the exemplary embodiment shown here, a greatly exaggerated cover sheet 38 is laminated onto the individual slope elements 30 , which overlap the element lying lower in the direction of the slope in the joint region of two elements. Part of the slope system shown here are also the insulation elements 44 , which cover the sides of the balcony support plate 32 that are not covered by the slope elements 30 and heat-insulating. The insulation elements 44 may consist of the same material as the slope elements 30 and are fastened to the support plate 32 in a manner known per se. They complement it in dung OF INVENTION proper development, the elements already by the gradient-Ele 30 scored insulating effect of the gradient system.

Within the framework of the inventive concept, numerous are further education possible. So especially the impact area two gradient els butting against each other when laid not only be worked out in such a way that the Step fold described here results, but it can also a kind of tongue and groove connection can be provided. The bump edge, especially the step fold, can be glued, so that a 100% watertight transition is guaranteed is accomplished. The material of the individual elements of the Slope system, in particular the slope elements and the insulation elements can be chosen so that the in the Rule plate-shaped elements simply to the required Size can be cut. Everyone is essential in case that the gradient elements are not just for one the slope of a wear layer to be applied Balconies, a terrace, a flat roof or the like  Provide slopes, but that they are also a Drain this wear layer through the individual channels allow incorporated drain channels and at the same time the layers below the slope elements, so e.g. B. a balcony support plate, thermally insulate.

Claims (14)

1. Slope system for balconies, patios and. Like. With slope elements ( 10 ; 30 ) to be applied on the upper side, which can be laid in such a way that they together provide a surface with the minimum inclination necessary for draining liquids, in particular water, characterized in that
that the elements are made of thermally insulating material and Herge
that elongated recesses ( 14 ; 34 ) which run parallel to one another in the direction of the slope and form upper drain channels are machined on the top of the slope elements. 2. Slope system according to claim 1, characterized in that the slope elements ( 10 ; 30 ) consist of foam plastic, in particular rigid foam. 3. Slope system according to claim 2, characterized in that the foam plastic is closed-pore. 4. Slope system according to one of claims 1 to 3, characterized in that on the underside of the slope elements ( 10 ; 30 ) parallel, elongated channel-like recesses ( 16 ; 36 ) are incorporated, wel che lower drain channels form. 5. Slope system according to claim 4, characterized in that the cross-sectional area of the lower drain channels ( 16 ; 36 ) is in each case smaller than the cross-sectional area of the upper drain channels ( 14 ; 34 ). 6. Slope system according to one of claims 1 to 5, characterized in that the drain channels ( 14 , 16 ; 34 , 36 ) have a rectangular, square, trapezoidal or round cross section. 7. slope system according to one of claims 4 to 7, characterized in that the lower drain channels ( 36 ) in we sentlichen at right angles to the on the top of the Ge slope elements ( 30 ) arranged drain channels ( 34 ) ver to run. 8. slope system according to one of claims 1 to 7, characterized in that in the top of the slope elements ( 10 ; 30 ) perpendicular to the in the slope direction the drain channels ( 14 ; 34 ) spaced apart transverse channels are incorporated . 9. Slope system according to one of claims 1 to 8, characterized in that the top of the slope elements ( 14 ; 34 ) is coated with a waterproof film. 10. Slope system according to claim 9, characterized in that the waterproof film is in a liquid state worn, set "liquid film" is. 11. Slope system according to claim 10, characterized in that a cover sheet ( 18 ; 38 ) made of water-permeable nonwovens, open mesh or other comparable materials is laminated onto the top of the slope elements. 12. Slope system according to one of claims 1 to 11, there characterized by that on the bottom of each Slope element a sealing sheet is laminated. 13. Slope system according to one of claims 1 to 12, characterized in that the slope elements ( 10 ; 30 ) have a substantially rectangular shape in plan view. 14. slope system according to claim 13, characterized in that the slope elements ( 10 ; 30 ) in their marginal areas are so elaborated that two in the relocated to stand with one of their peripheral sides touching slope elements ( 10 ; 30 ) partially overlap in the area of these pages.