NL2001295C2 - Method for manufacturing a structure. - Google Patents

Description

Q.2FJ42

METHOD FOR MANUFACTURING A CONSTRUCTION

The invention relates to a method for manufacturing a construction, wherein a foundation for the construction is provided on an unstable surface. In the context of the invention, a construction is understood to mean everything that is applied in practice to a foundation, such as, for example, a ground or structure. The invention particularly concerns the production of sports fields, such as football, hockey or tennis courts, as well as other light structures, such as lawns, green strips and walking paths, without the invention being limited thereto. In the context of the invention, an unstable subsurface is understood to mean a subsurface that is not, or not sufficiently, capable of supporting a foundation and a construction to be applied thereto, such as earthworks, without additional measures. Such a weak substrate is, for example, peaty soil.

Such a method is generally known. In the known method, for example, an artificial grass field is laid on a lava foundation, the lava foundation being supported in particular on sand that has been preloaded for a long time. In practice it has been found that an artificial grass field thus laid out will show bumps and pits or damage in some other way over time. These bumps and pits are the result of local uneven settlements and / or subsidence of the subsurface, for example at the location of damped ditches.

The object of the invention is to improve the state of the art, that is to say that local uneven settlements and / or subsidence of the unstable subsoil cannot cause damage to the foundation and the construction to be applied to it.

To this end, a method of the type mentioned in the preamble according to the invention has the special feature that the foundation is formed by a floating base, the floating base floating in use condition on an aqueous layer. There may be water-saturated soil or a soil-saturated soil layer, such as marshy soil. The invention is in particular based on the realization of an equilibrium situation in which the foundation and the construction to be applied thereto float in use condition, ie in loaded condition, on a water-containing layer (for example a base layer saturated with water), using the upward force of the water ("the law of Archimedes"). Any uneven settlements and / or subsidence of the unstable subsurface, for example at the location of damped ditches, are therefore absorbed by the water in combination with the floating base, which is preferably made from a rigid material with pressure-distributing properties. The present method offers in particular the following advantages: 1. it is now also possible to build on unstable surfaces in an efficient and cost-effective manner, where previously this was considered to be objectionable or impossible in view of the instability of the substrate. ; 2. an expensive and long-term pre-loading of sand, such as in the state of the art, can be omitted; 3. the floating foundation currently used has hardly any limitations in bearing capacity and is low in maintenance, while -3- it is perfectly flat to be used for particularly light building constructions.

In a preferred embodiment of a method according to the invention, the unstable subsurface is dug up to the groundwater, the floating base floating on a layer of groundwater. By partially excavating the unstable subsurface, a layer of groundwater is automatically created on which the foundation can be applied floating. The groundwater is naturally stable, so that unacceptable fluctuations cannot occur as a result of waves. In another preferred variant, the floating base in use condition floats on a layer of water provided between the floating base and the unstable ground.

In a further preferred embodiment of a method according to the invention, the layer of (ground) water has a thickness of at least 2 cm, preferably at least 5 cm. Experiments have shown that this thin water disc is very well capable of compensating for uneven settlements and / or subsidence of the unstable subsurface.

In a further preferred embodiment of a method according to the invention, the thickness of the water layer is maintained by pumping means. The water layer is preferably also refreshed by the pumping means - periodically or not. This also offers the option of storing or buffering water.

In a further preferred embodiment of a method according to the invention, the floating base is composed of a number of, possibly coupled to each other, basic elements. In this case, each basic element is in particular composed of at least one floating member and at least one reinforcing member, the floating member and the reinforcing member being joined together, for example by gluing. The reinforcement member serves to provide the foundation with sufficient rigidity, in particular to prevent the floating member from bending under a specific (local) usage load.

In a further preferred embodiment of a method according to the invention, the floating member is at least substantially manufactured from expanded polystyrene (EPS), wherein the reinforcing member is at least substantially manufactured from a material with a higher elastic modulus than EPS. The reinforcing member is in particular manufactured from at least one material selected from the group consisting of concrete, metal, plastic and textile. If the reinforcing member is made of textile, so-called "geotextile" is preferably used.

The invention also relates to a method for manufacturing a floating building construction, wherein a floating base for the building construction is provided on water. According to the invention, such a method has the special feature that the floating base is composed of a number of basic elements, whether or not coupled to each other, wherein each basic element is composed of at least one floating member and at least one reinforcing member, the floating member and the reinforcing member are joined, wherein the floating member is at least substantially made of expanded polystyrene (EPS), and wherein the reinforcing member is at least substantially made of a material with a higher elastic modulus than EPS. The floating base is particularly suitable as "floating foundation" on groundwater, surface water or at sea for the construction to be applied thereon, such as, for example, a ground or structure.

The invention will be further elucidated with reference to figures shown in a drawing, wherein - figure 1 shows a schematic side view of a soccer field built according to a preferred variant of the invention; and - figure 2 shows a schematic perspective view of the composition of a foundation, as used with the football field of figure 1.

As shown in figure 1, there is talk of unstable peat soil, from which peat has first been excavated in order to realize a floor 1 in the peat soil. Subsequently, a foundation in the form of a floating base 2 on groundwater 3 is installed in the floor 1. A football field 4 has been installed on the floating base 2. Figure 1 furthermore shows an underground reservoir 5, in which the groundwater 3 is stored. A pump (not shown) can pump the groundwater 3 from the reservoir 5 into the floor 1, as well as pump the groundwater 3 from the floor 1 into the reservoir 5. Thus, the groundwater level in the floor 1 (i.e., below the floating base 2) can be controlled and the groundwater 3 can be refreshed there. It is possible that the pump can pump all the groundwater 3 below the floating base 2 (so that the floating base 2 rests on the bottom of the floor 1), in case the football field is not played. When the football field is put into use, the pump then ensures that the floating base 2 floats on the groundwater disc 6. In such a case, therefore, there is a "semi-floating" base 2. The thin groundwater disk 6 below the floating base 2 is very capable of absorbing uneven settlements and / or subsidence of the unstable peat soil.

Figure 2 shows how the floating base 2 is assembled from a number of, possibly mechanically coupled, base elements. In addition, each basic element is in particular composed of a number of floating layers 7,8,9 of expanded polystyrene (EPS) and possibly glued, reinforcement layers 10 of geotextile on both sides thereof. A sandwich structure is thus obtained. The reinforcement layers 10 serve to provide the floating base 2 with sufficient rigidity, in particular to prevent the floating layers 7, 8, 9 from bending too much at a certain (local) usage load of, for example, 250 kg / kg (2, 5 kN / no). The floating layers 7,8,9 are, for example, made of EPS of approximately 200 mm, while the reinforcement layer 10 is made of geotextile. Optionally, instead of a sandwich structure, use is made of two floating layers 7,8 which are provided on one side with a strengthening layer 10. In that preferred variant, the floating layer 7 is approximately 100 mm thick and the floating layer 8 is approximately 400 mm thick.

The invention is not limited to the embodiment (s) shown, but also extends to other preferred variants that fall within the scope of the appended claims.

Claims (6)

A method for manufacturing a foundation for a structure, wherein the foundation is provided on an unstable surface, the foundation being formed by a floating base, and wherein the floating base in use condition floats on an aqueous layer, characterized in that the floating base is composed of floating layers which are each provided with several, elongated blocks which are at least substantially made of expanded polystyrene (EPS) and which abut along their longitudinal sides, the blocks from the first layer being crosswise to the blocks from the second layer are arranged, and wherein the blocks from the first layer are arranged offset from the blocks from the second layer; and a reinforcement fabric that is applied to at least one outer side of each of the floating layers. The method of claim 1, wherein the reinforcement fabric is made from at least one material selected from the group consisting of metal, plastic, and glass fiber. The method of claim 2, wherein the reinforcing fabric is made from at least one material selected from the group consisting of polypropylene, polyester, polyethylene, nylon, and fiberglass. A method according to any one of the preceding claims 1, 2 or 3, wherein the unstable soil is excavated below groundwater level, and wherein the floating base floats on a low groundwater level. A method according to any one of the preceding claims 1 to 4, wherein the floating base floats on a layer of water provided between the floating base and the unstable subsurface. A method according to any one of the preceding claims 1 to 5, wherein the unstable soil is formed by water.