EP0059702A1 - Foundation, especially for single-storey buildings without cellar - Google Patents

Abstract

1. A foundation for buildings having no cellar, particularly for single-stored buildings, comprising prefabricated piles (2) placed in predrilled earth holes (1) or piles of cast-in-situ concrete formed by pouring concrete into the earth holes, which piles extend into a frost-free depth and protrude from the ground, and load-carrying prefabricated floor elements (16) or beams (4) placed on said piles, characterized in that the space between the piles (2) is covered below the enclosing walls (14) of the building on the outside by boardlike prefabricated elements (8) which are vertically movable and contact the piles (2) or the prefabricated floor (16) or the beams (4) and on the inside by flexible heat-insulating strips (10, 10').

Description

The invention relates to a foundation for, in particular, single-storey buildings not having a basement, consisting of prefabricated piles reaching into the frost-free depth and protruding above the ground, either offset in pre-drilled holes or made of in-situ concrete piles and the load-bearing precast concrete slabs or beams laid thereon.

For single-storey structures in particular, so far, unless they have a basement, strip foundations are usually provided, which extend into the frost-free depth and usually consist of concrete or lightly reinforced reinforced concrete. With appropriate soil conditions, the foundations can be concreted against the ground, but the part of the foundation projecting above the ground level must be formed on both sides. Such a foundation is cost-intensive, requires a corresponding excavation of earth with removal of the excess material, a comparatively large amount of in-situ concrete for the foundations, additional formwork work and insulation of the top of the foundations. In addition, after the topsoil has been removed and the strip foundations have been produced, ballast must be mentioned and distributed between the strip foundations, and also covered with a film and with a slightly reinforced sub-concrete layer. This is followed by a moisture barrier, a thermal insulation layer and finally the actual floor construction for the production of the floor. Overall, this results in a complex and expensive foundation, so that a full basement is often arranged, although in many cases there is no need for it.

Although it is already known to provide a foundation for buildings that do not have a basement, which consists of piles arranged in a certain grid dimension and beams or ceilings laid thereon, it does This is a construction method which is generally only used in exceptional circumstances due to the terrain and in which no protective measures have been taken for the space between the structure resting on the piles and the ground.

The invention has for its object to provide a foundation of the type described, which is suitable for single-storey buildings of all types or for light multi-storey buildings, in particular for prefabricated houses and halls, in frost-prone areas and in areas with high groundwater levels and in built-up areas does not require excavation and removal of the resulting earth material, does not require a ballast layer or moisture insulation, considerably simplifies and simplifies work and offers full freedom of design within the floor plan.

The invention solves this problem in that the space between the piles below the surrounding walls of the building is covered on the outside by board-like finished parts which are vertically movable against the piles or the precast ceiling or the beams and on the inside by flexible thermal insulation strips.

The space between the structural parts resting on the piles and the ground is thus secured by two seals. On the outside through the board-like prefabricated parts, which, because they are arranged to be vertically movable, can also take part in frost rises if necessary. On the inside, the thermal insulation is provided by the flexible thermal insulation strips, which give the interior under the floor protection against the cold and can also help lift the floor. Good cold protection is also achieved from below, and heat losses to the ground are avoided. The sewage system can be laid open in the frost-protected free space under the floor. The manual work on the Construction site is reduced to a minimum, since it is limited to lifting the topsoil, drilling the pile holes, moving and ramming the prefabricated piles or manufacturing the in-situ concrete piles and installing the covers or frost protection. The water balance of the soil is not disturbed, there are no sealing problems and no unnecessary cellar space is created, which causes costs that should be better spent on expanding the living space. While the construction of precast elements was previously carried out by a construction company other than the assembly of the precast object, the entire construction of the object can now be put in one hand, which offers corresponding economic and organizational advantages. The manufacturer of the prefabricated components can also manufacture and deliver all of the finished parts for the foundation. No foundation formwork is required at the construction site and there is no risk of damage to the building due to frost elevations, whereby adverse frost influences on a foundation or on the building are also eliminated. Finally, easy disassembly is possible.

It is particularly useful if the board-like finished parts with a wedge-shaped, tapering cross-section have an inclined outer surface and a lower surface lowering towards the piles and the like with their lower part in the ground. are embedded, so that the board-like prefabricated parts are pressed by the pressure of the soil independently on the piles or on the ceiling or the beams and no special attachment is required.

In order to prevent water or moisture from penetrating between the board-like prefabricated parts and the piles or prefabricated part ceiling or beams, without impairing the vertical mobility of the board-like prefabricated parts, the upper edge of the board-like parts are according to the invention Pre-fabricated parts with cover bars or cover plates provided across the game.

The thermal insulation strips are attached to the top of the beams or prefabricated part ceilings and lie on the ground like an apron like a skirt, so that a good seal is achieved and the flexibility is ensured in the event of frost rises.

In hall buildings in particular, it can be advantageous if prefabricated cable duct fittings are connected to the inside of the thermal insulation strips.

The subject matter of the invention is shown in the drawing, for example. 1 shows a foundation of a building in vertical section along the line II of FIG. 2, FIG. 2 shows an associated plan view with the outer wall removed and the floor construction omitted, FIG. 3 shows another foundation in a representation corresponding to FIG. 1, and 4 a further embodiment variant also in vertical section.

Ready-made piles 2 are inserted in boreholes 1, rammed and poured with in-situ concrete. The prefabricated piles 1 protrude so far above the construction base 3 produced by lifting off the topsoil that the required frost-freeness results for the structure to be put on. Edge beams 4, which have a shoulder in the pile area, lie on the finished piles 2. The edge beams 4 have cutouts 5 through which steel brackets 6 anchored in the prefabricated piles 2 project upwards. Cover beams 7 are laid on the edge beams 4, in which the brackets 6 also engage, so that by potting the corresponding recesses 5, a firm connection of the piles 2 with the edge beams 4 and the cover beams 7 is achieved. On the prefabricated piles 2 and the edge beams 4, on the outside, vertically movable board-like prefabricated parts 8, or the like with their lower part in a gravel or the like. filled, the trench 9 surrounding trench 9 and engage with a wedge-shaped, tapering upward cross-section has an inclined outer surface and a lower surface that slopes towards the prefabricated piles 2.

The space between the prefabricated piles 2 and the edge beams 4 is covered on the inside by flexible insulation strips 10, which are fastened to the cover beams 7 at the top and abut the base 3 in the manner of an apron. With 11 further insulation strips are designated. If the thermal insulation strips 10 and 11 are fastened, a reinforced concrete ceiling panel 12 with a thermal insulation layer 13 previously attached to it can be laid, whereupon the outer wall 14, any desired inner walls and a floor construction 15 are moved.

The construction according to FIG. 3 differs from that according to FIGS. 1 and 2 essentially in that, instead of edge beams 4 and ceiling panels 12, a reinforced concrete cassette panel 16 with casting recesses 5 'is provided for the steel bracket 6. The cover beams 7 are replaced by cover plates 17 with Kittfugai18.

Fig. 4 shows a hall foundation. A ceiling construction is missing here, and a prefabricated cable duct fitting 19 is provided following the thermal insulation strips 10 '. There is a corresponding curling 20 on the building base 3, on which the hall floor 21 is applied.

1, a sewer pipe 22 is freely laid under the reinforced concrete ceiling plate 12.

Claims (5)

1.Foundation for in particular one-storey, not basement structures, consisting of deep piles reaching into the frost-free depth and protruding above the ground, either staggered in pre-drilled holes or made of in-situ concrete piles made of concrete and made of load-bearing prefabricated part ceilings or beams, characterized in that the space between the piles (2) below the surrounding walls (14) of the building on the outside by board-like prefabricated parts (8) which are vertically movably attached to the piles (2) or the prefabricated part ceiling (16) or the beams (4) and on the inside by flexible thermal insulation strips (10, 10 ¹ ) is covered. 2. Foundation according to claim 1, characterized in that the board-like prefabricated parts (8) have a wedge-shaped, upwardly tapering cross-section an inclined outer surface and a lower surface to the piles (2) and with their lower part in the ground or the like. are embedded (Fig. 1, 3 and 4). 3. Foundation according to claims 1 and 2, characterized in that the upper edge of the board-like prefabricated parts (8) with game-covering bars (7) or cover plates (17) are provided (Fig. 1, 3 and 4). 4. Foundation according to claim 1, characterized in that the thermal insulation strips (10) are attached to the top of the beams (7) or prefabricated ceilings (16) and lie in an apron-like manner on the ground (3) (Fig. 1 and 3). 5. Foundation according to claim 1, characterized in that on the inside of the thermal insulation strips (10) prefabricated cable duct fittings (19) (Fig. 4).

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