FACILITY FOR HYDROPONIC CULTIVATION

Abstract

The facility has a pair of side bars (1,1) acting as inclined supports for an upper sheet (2) with openings (8) for inserting the plants, a closed lower sheet (4) acting as a collector, and at least one intermediate sheet (3) with openings determining a cascade trajectory for the water with the nutrients. The multi-layer upper sheet (2) preferably includes four layers (2a, 2b, 2e and 2d), which together define narrow channels (7) such that at insertion, the root of each plant is placed in a channel (7) different from that used by the adjacent plants. The openings (8) for the insertion of the plants form two marginal and longitudinal lines, so than the roots of adjacent plants can be completely isolated during the first growth phase thereof, preventing interference therebetween and allowing plants with different growth rates and even different types of plants to be arranged on the facility, generating, in turn, continuous production and an improved yield from the facility.

Claims

1. A facility for hydroponic cultivation, comprising a pair of spaced apart supports which together comprise a physical support for an upper sheet; an upper sheet including first orifices configured for planting respective plants at the upper sheet orifices; a closed lower sheet spaced from and below the upper sheet; at least one intermediate sheet between the upper sheet and the lower sheet; each intermediate sheet forming a series of dihedral channels connected for cascading down of a liquid by means of second orifices in the one or more intermediate sheets for providing a cascading effect; the upper sheet comprises a multi-layered sheet comprising a plurality of layers slightly separated between them, so that each pair of layers defines between the pair of layers an independent channel of a height selected for planting of the roots of the plants, and facing the first orifices for planting the plants on the upper layer; each of the remaining layers of the plurality thereof comprises die cuts or fragile fold lines below the first orifices and that can be torn off, so that the roots of each plant reach the respective channel chosen by the user, and which is selectively a different channel than the channel of others of the plants.

2. A facility for hydroponic cultivation according to claim 1, further comprising the orifices for planting the plants and the complementary die cuts thereof are located along two longitudinal, marginal areas on and along the upper sheet.

3. A facility for hydroponic cultivation, according to claim 1, further comprising a multiple water inlet is placed over the upper sheet and in correspondence with each plant, the water inlet comprises water outlets each for selectively watering each of the channels defined by the layers of the upper sheet.

4. A facility for hydroponic cultivation according to claim 1, further comprising an orifice placed at the ends of the channels corresponding to each plant and at the lowest point of the channels in one direction, the first orifices affecting the three upper layers and connecting the channels of the upper sheet with the channels defined by the intermediate sheets and with the closed lower sheet, and configured to allow the water carrying nutrients to cascade down parallel to a trajectory of the roots of the plants.

5. A facility for hydroponic cultivation according to claim 1, wherein each support comprises a longitudinal support.

6. A facility for hydroponic cultivation according to claim 5, wherein each support comprises a pair of parallel, spaced apart and longitudinal threads, bars or a rigid channel with an inclination.

7. A facility for hydroponic cultivation according to claim 1, wherein the die cuts or the fragile fold lines are configured to be torn off by using the roots of the plant itself as a perforating element.

8. A facility for hydroponic cultivation according to claim 2, wherein the marginal areas comprise longitudinal lines.

Description

DESCRIPTION OF THE DRAWINGS

[0017] To complete the invention described and in order to give a better understanding of the characteristics of the invention, according to a preferred embodiment thereof, this description is accompanied by a set of drawings in which the figures described below have been represented, for purely illustrative purposes and should not be construed as limiting:

[0018] FIG. 1 shows a partial perspective view of a facility for hydroponic cultivation according to the object of the present invention.

[0019] FIG. 2 shows a transverse cross section of the assembly represented in FIG. 1.

[0020] FIGS. 3A, 3B and 3C show representations similar to the one shown in FIG. 1, featuring one of three options for planting the roots of the plant in the different respective levels at the heart of the multi-layer sheet at the moment of planting them.

[0021] FIG. 4, finally, shows a longitudinal schematic view of a segment of the facility.

PREFERRED EMBODIMENT OF THE INVENTION

[0022] FIGS. 1 and 2, show that the facility proposed in the invention is constituted by a pair of parallel and longitudinal threads or bars (1, 1), which constitute the physical support of the multiple channels that comprise a multi-layered upper sheet (2), at least one intermediate sheet (3), and a lower sheet (4), made of different widths in order to create respective channels (5) configured noticeably in the shape of dihedrals, secured to the bars (1, 1) by means of marginal folds (6) represented in a scheme of the drawings.

[0023] The upper sheet (2) is multi-layered, so that it is comprised, for example, of four layers (2a, 2b, 2c and 2d). Each of these layers is also made of different widths so that significantly smaller channels (7) are defined between them, specifically channels smaller in height in comparison to the channels (5) defined between the different sheets (2, 3, 4).

[0024] The upper layer (2a) of the upper sheet (2) comprises two marginal lines of orifices (8) conveniently separated according to the planned separation between plants (9), and the die cuts (8) are located under these orifices (8) and they affect the other three layers (2b, 2c and 2d) of the sheet (2) The die cuts are initially closed and are easily torn off when the plants are planted so that the roots of each of the plants can be placed on any of the three levels (7) defined by the aforementioned layers (2b, 2c and 2d), as shown in FIG. 4, depending on the choice of the farmer, and on a respective different level than the adjacent plants. The roots of the plant themselves act as a puncher to tear off the die cut or die cuts needed in order to gain access to the planned level.

[0025] A multiple water inlet (11) is placed alongside every orifice (8), which is individualized for each plant, with three independent outlets (12), each of them facing each of the spaces or channels (7) defined by the different layers of the sheet (2).

[0026] The roots are then placed on the same level of the multi-layered sheet (2) as the water carrying nutrients, and they are completely independent from the roots of the rest of the plants during the initial stage of growth, which is long enough so that no interference takes place between plants, and so each plant, following the direction of the inclination (13), finally reaches an orifice (14). This simultaneously affects the three lower layers (2b, 2c and 2d) of the sheet (2), from where the water carrying nutrients and the roots descend to the intermediate sheet (3), and from that sheet, with the possibility of there being another layer of intermediate sheets (3), they descend to the closed lower sheet (4) that acts a collector, all of which takes place through the orifices (15) of said sheets (3, 3), which determine the circulation of the water with nutrients cascading down, and an identical trajectory for the roots.