NL9100509A - Plant cultivation, hot house floor construction - with lightweight concrete support layer and grooved tiles forming water inlet and outlet ducting - Google Patents

Abstract

The floor construction (1) has a bottom (3) and a base layer (2) also a top layer (4). The top layer is covered with sand (16) onto which a foil layer is applied. Tiles (7) are arranged on a resilient layer (6). The tiles are chamfered (8) to form recesses and have bottom grooves (9). The tiled area is enclosed by a plastics water guard (11). Floor construction includes a wall (12) and a column (13). Plant containers which are placed on the tiled surface, can be regularly flooded by water under low pressure, provided in gulleys (10).

Description

Floor construction as well as building provided with this construction.

The present invention relates to a floor construction comprising a continuous poured supporting layer, which is sealed at least on the top side, with a layer of tiles applied thereon.

Such a floor construction is generally known in the prior art. In greenhouses, for certain cultures, plants may or may not be placed in boxes on the bottom of the greenhouse floor. Subsequently, the growth of the plants is promoted by supplying water and subsequently discharging it again (so-called flood and low tide). It is important, on the one hand, that a good supply and discharge of water is provided and, on the other hand, it is important that in a certain area all plants receive approximately the same amount of water, that is to say that the water height relative to the container height is substantially is the same.

Until now, such requirements could only be met with particularly complicated greenhouse structures. The object of the present invention is to provide a simpler floor construction, with which it is possible to realize the above-described culture with low and high tide in an inexpensive manner.

This object is achieved in a floor construction described above because a channel system is limited between the tiles and the supporting layer and because the supporting layer comprises foamed concrete. By using loose tiles, the irrigation fluid, generally water with any nutrients or herbicides, can be easily supplied and discharged. The channel system arranged between the tiles and the supporting layer ensures a very direct supply, so that in addition to a constant height between the different plants, it is also ensured that the irrigation time is approximately the same. By using a continuously poured support layer consisting of foam concrete, a foundation can be realized in a particularly advantageous manner even with a low load-bearing substrate. It is also possible in this way to achieve a very accurately controlled slope. This allows water to be drained at a guaranteed speed. In order to achieve this slope accurately, the method known per se in the prior art can be applied, in which first a substantially horizontal base layer is applied and then a thinner top layer with a slope is applied.

Because foam concrete material is not completely waterproof, the seal preferably consists of a waterproof layer, for example a foil layer.

Such a foil layer can comprise a polyethylene foam foil, which may or may not be laminated with a dense polyethylene foil. The resilient properties thereof are of particular advantage when laying tiles thereon, and such a foil is easy to weld.

The channel system can be realized in a particularly simple manner by arranging gutter means in the carrier layer. These can be achieved by arranging the gutter means already when pouring or by later removing material from the carrier layer.

According to a further advantageous embodiment, recesses are provided on the top of the tiles. These provide a simple means for the "fine-meshed" discharge to the above-described duct system.

According to a further advantageous embodiment, a layer of granular material, such as sand, is present between the carrier layer and the foil layer. This makes it particularly easy to accurately lay the tiles.

To limit different parts within a certain floor area, elevations can be applied to the carrier layer. When a foil layer is used, it can be arranged to extend over these elevations, so that spaces are provided liquid-tight.

There may be recesses on the underside of the tiles to accommodate heating pipes for underfloor heating.

The invention also relates to a building comprising the floor construction described above. In particular, a greenhouse is envisaged here. The walls of this greenhouse can also be supported on at least a part of the supporting layer. This avoids local voltage concentrations.

The invention will be explained below with reference to an illustrative embodiment shown in the drawing.

The only figure shows schematically in cross section a greenhouse provided with the floor construction according to the present invention.

The floor construction according to the invention is indicated in its entirety by 1. This is mounted on a bottom 3, which is only indicated partially, and which may consist of a relatively little supporting material. The floor construction consists of a supporting layer consisting of a base layer 2 and a top layer 4. A supporting layer 5 is locally provided under the base layer 2. A layer of granular material, such as sand 16, is applied to top layer 4. A foil layer 6 is placed thereon, for example a foam foil. Tiles 7 are applied to foil 6, which has somewhat resilient properties. Tiles 7 are provided with lateral recesses 8 and grooves 9 · Gutters 10 are arranged in top layer 4. The area with tiles 7 is delimited by an upright part, which forms a water barrier, such as a plastic or concrete profile 11, over which the foil runs. On the other hand, the floor construction is bounded by wall 12 and column 13. Column 13 is mounted on a base plate 14, which is mounted on supporting layer 5 by means of schematically depicted adjusting means. Top layer 4 has a slope to gutter 10. This slope can be 0.5 #. Plant containers 15 are arranged on tiles 7. Hoses 9 (not shown) of a floor heating system can be placed in grooves 9.

By integrating support layer 5 and base layer 2, wherein support layer 5 extends outside the boundary of the greenhouse, a particularly simple foundation of the wall of the greenhouse can be provided.

The floor construction described above can be used as follows:

The crops to be grown in the containers 15 must be regularly irrigated. As a result, water can be forced through gutters 10 under low pressure, which passes through the spaces between the tiles and the recesses 8 above the tiles and with which the trays overflow. The low slope ensures that adjacent buckets 15 are irrigated to the same extent. A rapid supply of water can be provided by grooves 8 and gutters 10. After a certain period of time, the water must be drained. Due to the accurately determined slope, which is possible with this construction method, it is guaranteed that, despite the low slope, all the water is nevertheless discharged through recesses 8 and gutters 10. Although the invention has been described above with both the supply and the discharge of irrigation medium by the gutters 10 must be understood that the supply of this fluid can also take place in another manner, for instance via spraying installations.

The following values can serve as an example for the construction shown here:

Stern layer thickness 5: depending on the load on the greenhouse construction.

Base layer thickness 2: 150 mm

Top layer thickness: 100 mm

Distance from gutter to gutter: 3.2; 6.4 and 8.2 meters

It should be understood that these are only examples and that numerous modifications can of course be made to them. The only important thing is that by combining particularly simple elements as such, a floor construction can be obtained with particularly large application possibilities.

Claims (10)

Floor construction comprising a continuous poured supporting layer, which is sealed at least on the top side, with a layer of tiles applied thereon, characterized in that a channel system is bounded between the tiles and the supporting layer and that the supporting layer comprises foam concrete. Floor construction according to claim 1, wherein the sealing comprises a foil layer. Floor construction according to claim 2, wherein the foil layer comprises a foam foil material. Floor construction according to one of the preceding claims, wherein the channel system comprises gutter means arranged in the carrier layer. Floor construction according to one of the preceding claims, in which recesses are provided on the top of the tiles. Floor construction according to any one of claims 2-5, wherein a layer of granular material is present between the carrier layer and the foil layer. Floor construction according to one of the preceding claims, in which different floor parts with tiles are bounded by applying raised parts to the supporting layer. Floor construction according to one of the preceding claims, in which recesses are present in the bottom of the tiles. Floor construction according to claim 8, wherein a heating pipe system is incorporated in the recesses. Building comprising the floor construction according to one of the preceding claims, as well as columns and / or facades, wherein the foundation for the walls is included in the supporting layer.