EP2246497A1 - Foundation for road equipment - Google Patents

Abstract

The foundation has a stringer (40) resting on a pad or strip footing and comprising ends with rails (402) allowing fixation of a metallic console (50). The console assures alignment and integration of the ends and support of posts (10) of a metal frame. A concrete slab (30) of a ground floor is supported on the stringer. An insulating device is arranged along the stringer and under the entire support surface of the slab, before forming the slab. The device is formed of a sealing film (70) and a vertical thickness (61) of an insulating material (60). The stringer and the slab are formed of prefabricated elements.

Description

The invention relates to a building foundation with thermal insulation and sealing and its application to houses with metal structure.

The evolution of regulations in the building sector requires that thermal bridges be avoided to a maximum during the construction of individual houses. The most difficult thermal bridge to be treated is located at ground level, between the perimeter foundations, usually concrete, which must ensure the frost free of construction, the pavement of the ground floor, the walls of facade which ensure the thermal insulation and the supporting structure of the roof and facades.

Previous solutions made it possible to combine two or three elements. The frames of wooden houses in particular solve this problem only from the level of the slab (or slate) of the ground floor, which then serves as a support for the entire construction; slab insulation does not treat the thermal bridge between the slab and the frost-free peripheral sill; and, if an insulator is interposed, the load of the structure is no longer transmitted to the sill. Another solution is to add, in the house, an insulated floating floor, which has the disadvantage of requiring to raise the floor relative to the natural ground to prevent the earth is in contact with the wood facade and not the concrete.

We already know, by the international patent application WO 03/025294 , an assembly for foundations of load-bearing structures, intended for building foundations with load insulation using an insulating material taking into account the support elements and a part of the floor construction, or all of this, here, between the support elements. However, this foundation of works with load-bearing insulation, whose sills rest on a solid mass on which comes to rest the slab or the floor of the ground floor, does not include means ensuring the alignment and the solidarisation of the sills, as well as the support of the poles of the structure, nor of the device seal located along the longitudinal members and under the entire bearing surface of the slab or floor. Thermal bridges and rising damp are thus not eliminated on the entire surface and periphery of the ground floor of a building.

French Patent No. 2,821,100 describes a formwork device that eliminates the thermal bridges of pavements and floors horizontally and vertically, but is not preoccupied with rising damp. This device consists of a form allowing the peripheral formwork, a cavity for housing the vertical insulation, a seat for receiving the slab and possibly a peripheral reinforcement bearing on a wall or foundation, and a seat for horizontal thermal insulation which serves, at its end, formwork for the embankment.

French patent application no. 2,609,483 describes a house with improved thermal insulation, whose junctions between the different components are designed to eliminate the thermal bridges between the living space and the outside. For this purpose, the foundations and outer walls are made by pouring concrete into an insulating form forming an external thermal barrier and an inner thermal barrier. The floor and ceiling are made so as not to break the outer barrier. In addition, the floor and the ceiling comprise at least one thermally insulating layer, completely covering the inner barrier by being in contact therewith.

None of these solutions allows to obtain directly and in a simple way the thermal insulation and waterproofness of building foundations, especially metal frame houses.

The present invention aims to overcome these disadvantages. This invention, as characterized in the claims, thus solves the problem of creating a foundation for, on the one hand, eliminating the thermal bridges at the level of the ground floor of a house, on the whole periphery of its construction, by using prefabricated elements in the workshop, including the sills, and, on the other hand, to realize this one in dry solution, without using cast concrete in place, including paving.

The advantages obtained by virtue of this invention consist, essentially, in that it allows the elimination of thermal bridges and rising damp on the entire ground floor of a house and on all its periphery. All the elements can be realized with prefabricated parts in the workshop (prefabricated longrins, metal frame support assembled by bolting, insulating sandwich panels of frontage fixed by screws self-drilling, including the pavement which can be realized in dry solution by panels grooved wood, prefabricated concrete slab with patching or floor support in steel tanks). This foundation principle makes it possible to build a house in dry solution without using cast-in-place concrete. The installation time is considerably reduced: no drying, reduction of the impact of atmospheric conditions on the progress of the building site, assembly of the different elements by the same team of installers which follows a precise operating mode, no particular professional qualification n ' is required.

Very light houses can be shipped in containers and quickly assembled in disaster areas, without water and without electricity (tool used bolting-screwdriver in 24 volts which can be recharged by photovoltaic panels).

• la figure 1 représente la fondation d'une maison en coupe verticale en pied de bardage,
• la figure 2 représente le détail en coupe verticale du boulon de fixation de la platine d'un poteau de charpente sur une console support de la dalle de béton,
• la figure 3 représente un joint de longrine en coupe horizontale au niveau d'une équerre de fixation d'un poteau de charpente,
• la figure 4 représente la liaison à angle droit de deux longrines par l'intermédiaire d'une équerre de fixation supportant un poteau de charpente d'angle.

Other features and advantages will become apparent in the following description of a foundation for single-family homes with a metal structure and insulating sandwich panels for façades, made according to the invention, given by way of non-limiting example, with reference to the appended drawings. on which ones :

• the figure 1 represents the foundation of a house in vertical section at the foot of the cladding,
• the figure 2 represents the detail in vertical section of the fixing bolt of the plate of a framing pole on a support bracket of the concrete slab,
• the figure 3 represents a seam seal in horizontal section at the level of a bracket for fixing a framework post,
• the figure 4 represents the right-angle connection of two longitudinal members by means of a fastening bracket supporting a corner frame post.

The figures represent the foundation of a single house with a metal frame structure 10, sandwich panels 20 and a concrete slab 30. The said structural columns 10 being supported by prefabricated longitudinal members 40, 41 and 42 via rails 402, 412, 422 and consoles 50, 51, said consoles being connected by bolts 53 introduced into a thermally insulating sleeve 54, with the interposition of insulating elastomeric bearings 52; said concrete slab 30 being insulated, on the one hand, the longitudinal members 40, 41, 42 by a vertical thickness 61 of insulating material 60, of about 70 mm, and, on the other hand, of the quay 1 by a horizontal layer of insulating material 62, of the same thickness, spread on a sealing film 70 developed on a layer of sand 4 spread over a layer of gravel 5; the edges 71 of said sealing film 70 being folded upwards and clamped between the longitudinal members 40, 41, 42 and the vertical thickness 61 of insulating material 60; a seal 6 being compressed between the base of the sandwich panels 20 and the upper edge of the vertical thickness 61 of insulating material 60, with closure of the gap left between the frame posts 10 by a plinth 21; the longitudinal members 40, 41, 42 having semicylindrical grooves 401, 411 and 421 located at their ends, intended to allow the realization of a keying by casting concrete after alignment and joining.

By examining in more detail Figures 1 and 2 it is noted that the thermal insulation of the slab 30 is completely ensured by the interposition, between the longitudinal members 40, 41, 42, of an insulating material 60, separated from the said longitudinal members 40, 41, 42 and the underlying sand 4 by a plastic film 70, which opposes, as for him, the rise of moisture towards the layer of insulating material 60 on which the slab 30 rests. As for the thermal bridge, which could have been materialized by the bolts 53 for fixing the brackets 11 connecting the frame posts 10 to their support bracket 50, it is canceled by the presence of insulating supports 52, arranged between the support bracket 50 and the plate 12 of the frame poles 10 and 10. their fixing brackets 11, and a socket 54 around said bolts 53 for fixing the brackets 11; the sandwich panels 20 being, in turn, thermally insulated from the slab 30 by the seal 6 bearing on the top of the vertical portion of the thickness 61 of insulating material 60 trapped between the outer edges of the slab 30 and the upper part of the longitudinal members 40, 41, 42; said sandwich panels 20 being protected laterally from the moisture by a cladding 22, fixed on vertical rails 23 creating a free space 24 participating in the isolation.

By referring to figures 3 and 4 , it is noted that the longitudinal members 40, 41 and 42 are, after height adjustment and fastening consoles 50 and 51, keyed by concrete introduced into engravures 401, 411 and 421 at their ends, aligned or arranged at right angles .

As can be seen, thermal insulation and waterproofing are provided at all levels of this foundation, which lends itself to the construction of any type of building, including single-family houses, regardless of the type of structure used, under reservation of minor adaptations from the spring of the basic know-how of the skilled person concerned, without calling into question the invention.

Claims (7)

Building foundation with thermal insulation and waterproofing comprising stringers resting on a solid mass or a running sole, on which is supported the slab or floor of the ground floor, characterized in that the longitudinal members (40, 41 , 42) are provided at each end with rails (402, 412, 422) for fixing a metal bracket (50, 51) which ensures their alignment, their fastening and the support of the posts (10) of the structure, and in that , before the concrete slab (30) is produced, an insulating device (60, 70) is arranged along the longitudinal members (40, 41, 42) and under the entire bearing surface of the slab (30). Foundation according to claim 1, characterized in that the insulating device (60, 70) consists of a thickness (61) of insulating material (60) and a sealing film (70). Foundation according to claim 1, characterized in that the insulation between the upper plate of the bracket (50, 51) and the foot of the poles (10) of structure is obtained by interposition of an insulating elastomeric support (52). Foundation according to claim 1 or 3, characterized in that the thermal insulation between the bracket (50, 51) and the foot of the posts (10) is completed by bushings (54) of insulating material, arranged in the through holes bolts (53) for fixing the foot of the posts (10). Foundation according to claim 1, characterized in that the two ends of the longitudinal members (40, 41, 42) comprise a semi-cylindrical engravure (401, 411, 421) over their entire height, intended to allow, after alignment and joining by the consoles (50, 51), performing a keying, with a concrete without shrinkage. Foundation according to claim 1, characterized in that the longitudinal members (40, 41, 42) and the slab (30) are made of prefabricated elements. Application of the building foundation according to claims 1 to 6 taken as a whole to houses with metal structure.

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