FR2912034A1 - Soiless cultivation device i.e. horticultural device, for building, has tubular shaped elongated container containing substrate, and U-shaped nutrition and irrigation pipe/tube arranged in substrate, where pipe has wall provided with slots - Google Patents

Abstract

The device has a tubular shaped elongated container (1) containing a substrate (7), and a pressurized liquid/nutrient mixer i.e. Venturi effect exhauster, including a main inlet connected to an irrigation liquid distribution rail. A U-shaped nutrition and irrigation pipe/tube (4), is arranged in the substrate and extended along a longitudinal direction of the container. The pipe has a wall provided with longitudinal slots (6) whose length is based on fluid pressure that reigns inside the pipe/tube at its level.

Description

The present invention relates to a device for growing above ground by

  which can be as well greening the walls or roofs of buildings as growing plants in the nursery.

  BACKGROUND OF THE INVENTION Aboveground cultivation has been known for many years. It consists briefly in replacing the soil by a structure whose role is exclusively mechanical, both for the roots of the plants, forming the support for their anchorage and for the water with nutrients, thanks to which it is retained in the very vicinity of the roots. . The materials used to make these structures can be of any kind, as long as they are plant-neutral and capable of water retention. Synthetic foams will of course be found, but increasingly, textile or paper waste, wood residues, or even plants such as flax or hemp ...

  Plant growth has progressed a lot with drip irrigation. This process has significantly saved the water needed for a plant to grow. It has also been possible to control the supply of the necessary nutrient to the plant, being the controlled vehicle of these nutritive materials. The equipment used still has many defects, requiring improvements in the use of the nutrient liquid supply and the quality of installation and maintenance of the culture vessels. OBJECT OF THE INVENTION The object of the invention is certain of these improvements in order to make it possible to extend the field of use of this type of culture device, for example to re-vegetate buildings both internally and externally. SUMMARY OF THE INVENTION To this end, therefore, the subject of the invention is a culture device, in particular a horticultural device, comprising a container for containing a substrate and at least one irrigation and nutrition pipe placed in the substrate, in wherein the pipe is a tube whose wall is provided with at least one longitudinal slot.

  Preferably, the tube will have a plurality of discrete slots along its wall. If the irrigator container is elongated and arranged rather vertically, the length of each slot will be a function of the pressure at its level. Thus, a lower slot will be shorter in length than an upper slot. There is thus a simple way to balance the irrigation flow despite the influence of hydrostatic pressure. Each slot will be made without removal of material, thus defining two contiguous lips which, under the effect of a pressure greater than a threshold which depends on the mechanical and geometrical characteristics of the wall of the tube, oozes and thus delivers fluid to the substrate.

  In addition, the container of the device of the invention is of elongate shape, substantially tubular with the tube extending along its longitudinal direction. The tubular shape of the container has been retained for its ability to offer only a small surface in contact with the atmosphere, so as to minimize losses by evaporation. Indeed, the current section to take the form of a recumbent C or an inverted 0, the upper lips defining a narrow and elongated opening for the passage of plants. The tube can also form a U, the plants gushing from the upper ends of its branches. In another form, the container has side openings that form mini-trays from which the plants come out, for a substantially vertical arrangement of the container. Finally, the device of the invention comprises a pressurized source of irrigation and nutritional mixture, from which the channeling out through a control valve. In a preferred manner, the pressurized source comprises a sealed enclosure in which a supply pipe passes through another valve controlled by the pressure prevailing in the enclosure, said duct coming from a pressurized water / nutrient mixer. . The mixer is a Venturi vacuum cleaner whose main inlet is connected to a water distribution network and whose side inlet is connected to a nutrient reservoir. Other features and advantages of the invention will emerge from the description given below of some examples of its implementation. BRIEF DESCRIPTION OF THE DRAWINGS Reference is made to the appended drawings in which: FIG. 1 is a diagrammatic view of the principal means of the device of the invention, FIG. 2 illustrates a variant embodiment of these main organs, FIG. is a diagram illustrating an automatic power supply installation of the device of the invention. DETAILED DESCRIPTION OF THE INVENTION In FIG. 1, there is shown a container 1 of tubular shape, for example made of plastic material, passing through an upper longitudinal opening 2 of width 4 sufficient for plants P to bloom at a minimum. outside the container. This container is closed at one and the other of its ends by a plug 3 is screwed or glued to these ends. One of the plugs, the one shown, is sealed through an irrigation tube and nutrient supply container 1. This tube 4 which is also plastic, has a plurality of slots 6 made in its wall and this, without removal of material. The tube 4 has a connection 4a for a pipe 5 of its supply and at its other end is closed by a plug 4b. Inside the container 1, there is a substrate 7 within which the tube 4 runs. When the tube 4 is fed with a fluid under pressure, the pressure tends to open each of the slots 6 and this, in a balanced manner. , if the slots are identical and if the mechanical and geometric characteristics of the tube are similar along its length, so that the liquid seeps through these slots and humidifies the substrate 7 which has been, for example, previously inoculated . It has also been possible to place in this substrate young shoots so that they follow their growth in the container 1 and through the slot 2.

  Of course, the experiment makes it possible to determine the length of the slots 6 that should be practiced in the tube 4, depending on the nature of the material of this tube and the available supply pressure. In Figure 2, the container 10 is here placed vertically, completely tubular, and equipped with side openings 11 which form a kind of mini containers with the substantially horizontal free surface from which the plant can bloom. The roots of the plant are in the substrate which fills the tube and the mini containers and a feed tube 12 runs along the container 10. This container may be made of molded plastic, in the form of two shells assembled from sealed way in recovery. The irrigating and feeding tube 12 is in the same manner as before, provided with slots 13. It will be noted, however, that to take account of the hydrostatic pressure inside this tube, which varies according to the altitude, the slots 13 are of different lengths, namely larger L for the slots 13a in altitude than 1 for the slots 13b at the base of the tube. By thus playing solely on the length of the slots, it is possible to balance the irrigation flow along the plant column that can thus be constituted. These two embodiments of containers are not limiting. It is quite possible to imagine tubular containers with low opening, so low contact with the atmosphere for the substrate they contain, in other forms. Thus one can imagine U-shaped receptacles with equal or unequal branches, and at the end of which branches sprout the plants. These tubular containers can also be made from a sheet equipped with regularly spaced transverse bars, this sheet being flexible and the bars being suspended from a sort of rack by their ends on the outside of the sheet. The distance separating two suspended bars being less than the distance separating these two bars when the sheet is stretched between them, there is created between the two hanging bars a tubular pocket serving as a container and having the same properties as those described opposite the containers. Figures 1 and 2. It is understood for example that in the case of this sheet with its sleepers, the racks can be: horizontal or vertical, which allows to plant a roof or a front wall of a building very simple. Figure 3 is a diagram illustrating a possibility to make automatic irrigation of a container according to the invention. In this diagram, 21 represents a source of pressurized water or more exactly a connection point to a city water supply network for example. At the outlet of this connection point 21, the water is conducted in a mixer 22 which by venturi effect enriches the tap water which passes through a liquid nutrient contained in a container 23. At the outlet of the The mixer, the diluted product, ends up in a pressurized sealed container 24 through a valve 25. This valve, known in itself, has an opening threshold controlled by the pressure that prevails in the container 24. For example , a flexible diaphragm may cover a grid on one side of which the product proceeds from the mixer while the other face constitutes the seat for this diaphragm which can be plated there when the pressure inside the container is greater than the supply pressure from the mixer. The pressure inside the container can be calibrated by means of an adjustable discharge valve 26. A conduit 27 immersed in the liquid contained in the container 24 leads the latter to the inlet of a solenoid valve 28 whose outlet is connected to a ramp 30 for dispensing the irrigation liquid. This solenoid valve 28 is controlled by a signal 29 issued for example from a humidity sensor associated with one of the containers on the distribution manifold 30. In a simple installation, it will certainly be the container which will contain the most moisture-sensitive plant which will be equipped with a suitable sensor, but it can very well be imagined that, upstream of the solenoid valve, the pipe 27 is divided into a plurality of pipes themselves controlled by solenoid valves separated and controlled by humidity sensors adapted to the nature of the plants contained in each of the containers whose irrigation is controlled by the solenoid valve in question. A distribution in accordance with the diagram of FIG. 3 makes it possible to construct a planting installation, in particular inside a building, because the tightness of the distribution circuit of the irrigation liquid is perfectly controlled.

Claims (8)

  1. A culture device, in particular horticultural, comprising a container (1) for restraining a substrate and an irrigation and nutrition pipe (4) disposed in the substrate, characterized in that the pipe (4) is a tube whose wall is provided with at least one longitudinal slot (6).   2. Device according to claim 1, characterized in that the irrigation / nutrition tube comprises a plurality of slots (6), the length of a slot being a function of the pressure of the fluid inside the tube to its inside. level.   3. Device according to claim 1 or claim 2, characterized in that the container (1) is substantially tubular elongate in shape with the irrigation tube (4) extending along its longitudinal direction.   4. Device according to claim 3, characterized in that the tubular container (1) has a recessed C-shaped section.   5. Device according to claim 3, characterized in that the container (10) is a tubular member provided with side openings (11), each of them having an opening substantially normal to the axis of the tubular member.   6. Device according to one of the preceding claims, characterized in that it comprises a pressurized source (24) of irrigation and nutrition mixture, from which the pipe (4) comes out through a valve (28). ) of regulation.   7. Device according to claim 6, characterized in that the pressurized source comprises a sealing-encinte (24) in which ends a supply pipe through a valve (25) controlled by the pressure prevailing in the enclosure (24), said pipe coming from a mixer (22) water under pressure / nutriment.   8. Device according to claim 7, characterized in that the mixer (22) is a Venturi vacuum cleaner whose main inlet is connected to a distribution network (21) of water and whose input side is connected to a reservoir (23) of nutriment.