NL2021883B1 - WATERING SYSTEM WITH HELMET SPACE - Google Patents

Abstract

A watering system is disclosed comprising a moisture-impermeable material designed to span a generally helmet-shaped space above a substrate and running along its protruding edges to a growing soil in which crops can root, and containing space-containing water reservoir, which is arranged to allow evaporated water to precipitate against the inside of the material to allow it to flow through the inside of the edges, through the shape of the material and gravity, to the growth base. If the water is salty, salt can also be extracted from seawater.

Description

WATERING SYSTEM WITH HELMET SPACE

The present invention relates to a watering system and a method in which water is rooted in a growth soil, which moves under gravity to the growth soil and which is deposited from water vapor on the inside of a material, which in cross section is a helmet-shaped space stretched.

Reference is made to DE 10 2009 034 844 A1, from which a distillation helmet with a specific so-called alambic form is known. In the space stretched therewith there is usually dirty or salt water and above that the helmet has an inwardly curved inner rim, in which water vapor in the form of distilled clean water is deposited against the inside of the helmet.

The object of the present invention is to provide a water system that is easy to build and dismantle and that is largely self-sufficient and automatically active when it comes to providing fresh water with crops to be cultivated.

To this end, the watering system according to the invention has the feature of claim 1.

The corresponding method is characterized in claim 10.

The advantage of the system and method according to the invention is that the water vapor that precipitates against the inside of the room and condenses against it, through its helmet shape with outwardly-projecting edges, ensures that the growth soil in which the crops root automatically and for a long time as long as there is an aqueous substance in the reservoir, with clean water. The system can be assembled and disassembled with simple and lightweight means.

The space formed with the aid of the material is heated by sunlight falling thereon, whereby clean water evaporates from the reservoir from the reservoir filled with an aqueous, sometimes possibly contaminated, substance or, for example, salt water. The clean water then precipitates against the inside of the material of the space, after which it moves by its shape and by the action of gravity to the sides of the outwardly extending material edges in which the crops grow. This process continues until all the water from the reservoir has evaporated. Practice has shown that, because only little water is wasted which does not benefit the crops, this watering process, as well as the growing process, can continue for a long time without necessary intervention, even in dry areas.

An embodiment of the watering system and method according to the invention is characterized in that the crops protrude through the protruding edges of the material.

The advantage of this is that the protruding edges that extend over the underlying growth soil prevent drying out of the growth soil and the crops. This is of particular importance at high ambient temperatures. The water generated by the system thus largely, efficiently, ends up at the roots of the crops.

A further embodiment of the watering system according to the invention is characterized in that the watering system has a screen arranged in the space above the reservoir, which is preferably largely configured to prevent water dripping back into the reservoir on its outside and / or to prevent promote that water that precipitates against the inside of it flows to the growth soil.

The screen also ensures that any dripping water is directed to the sides to be led to the growth soil via the substrate and / or the inside of the material, in order to benefit the roots of the crops.

In a preferred embodiment of the watering system in which the material is a preferably flexible foil, such as a plastic foil, an advantageously lightweight and very easy to install system is obtained. This can easily be combined into a system in which the reservoir is a pit and / or channel running through the space. These can then be provided with an aqueous substance from the outside without having to enter the space. This can be done by tides, for example by supply of rainwater or by human hand.

Further detailed embodiments set out in the other claims are stated in the following description, together with the associated advantages.

The watering system and the ditto method according to the present invention will now be further elucidated with reference to the diagrammatic figures below, on the basis of which various possible embodiments will be further elucidated.

Thereby shows:

Figure 1 shows an overview figure of various possible embodiments of the watering system according to the invention; and

Figure 2 is another overview figure of other possible embodiments of the watering system according to the invention.

Figures 1 and 2 schematically show, in cross-section, the principle diagram of a watering system 1, which can be built up from moisture-impermeable material 2, which will hereinafter be referred to as a preferably flexible foil, for instance of plastic. With the foil 2, which is usually transparent to light, a substantially helmet-shaped space 3, which could form, for example, an igloo or tunnel, is shown in cross-section above a surface 4. This is done in a simple manner by using poles, tubes or poles as supporting members of the foil inside and / or outside the space 3, not shown in the figures. The well-known PVC electricity pipes or wooden, for instance bamboo, poles could be used here to stretch the foil 2 like a tent. The foil material 2 has edges 5 radially outwardly projecting at its periphery, which extend over and possibly in the base 4 provided with a growth base 6. Crops 7, such as plants, ornamental plants, trees, vegetables, herbs or the like, can grow in a growth base 6 present under the edges 5 of the foil 2. The edges 5 can reach into or up to the growth base in which the washed 7 roots run. If the edges 5 continue to the left and right as shown in both figures, the crops 7 will be able to protrude through the protruding material edges 5. However, the foil 2, and in particular its edges 5, could also extend below the growth base 6 and extend even further. The material 2 is then, as it were, folded back; see for this the course of the folded back film material 2 on the right in figure 1. In that case the system 1, as shown in figure 1, can be built up from only one strip of film material 2. As Figure 1 further shows, the folded back underlying foil 2 forms a recessed part in which the growth base 6 is located. Continuing to the left in Figure 1, this lies on the substrate 4 and is designed to create a reservoir 8, which is further explained below. Continuing further to the left in figure 1, this part of the foil 2 again forms a recessed part in which the growth base 6 is located.

Optionally, the watering system 1 can also be composed of two separate strips of foil material 2, brought into the desired shape, which is shown in figure 2. The in that case separate - underlying - strip is then not folded back and then extends on either side below the growth base 6.

The system 1 also functions if only the top foil 2 is present, and in particular if the substrate 4 is of a nature, for instance of hard clay or stone, and, after being in the desired shape for growth soil 6 and reservoir 8 brought virtually no water through.

The system 1 comprises the aforementioned reservoir 8 located in the space 3, which is arranged to allow water to evaporate therefrom which precipitates in the direction of the ascending arrows against the inside of the material 2 of the space 3. Said reservoir 8 can for instance contain a pit, a cavity, an open tube, and / or a channel, which is filled with an aqueous substance, whether or not contaminated, or, for example, contains fresh or salt water 9. When water evaporates from the reservoir 8 as a result of heat generated by incident sunlight in the space 3, the pure water evaporates and the pollution, or the salt, remains therein. In the latter case, salt can even be extracted with the aid of system 1. The evaporated water that precipitates in the space 3 against the inside of the foil material 2 moves through the helmet shape of that material and under the influence of gravity automatically, in the direction of the downward arrows, towards the sides of the above edges 5 facing the growth bottom 6 and ends up in the growth soil 6 at the roots of the crops 7. It is advantageous to keep the distance, indicated with A in figure 1, small so that as little weeds as possible can grow there on the ground in the space.

Multiple rows of separate igloos or, if desired, interconnected or tunnel spaces configurations connected together or in desired shapes could be assembled if desired. Then the channels 8 in the space 3 and / or outside will communicate with each other to ensure good liquid communication of the substance therein.

In the case of a high yield of the crops 7, the spaces can remain small and have a limited height, so that no shadow thereof falls on the crops, but they are nevertheless continuously supplied with sufficient fresh clean water.

Optionally, in the space 3 above the reservoir 8, a screen 10 can be stretched or hung, which is configured and shaped in such a way that water dripping from the ceiling of the space 3 is prevented from falling back into the reservoir 8, and then does not benefit the growth soil 6. The general advantage to be mentioned is that the cuttings and / or plants rooting therein grow in the open air and receive direct sunlight, which is favorable for healthy photosynthesis.

Examples of the aforementioned optional screen 10 are shown in both Figures 1 and 2. In the embodiment of figure 2, the edges 10-1 of the screen 10 continue to the left and / or right to an inclined plane 11, so that water precipitates against the inside of the screen 10 in appropriate quantities under the influence of gravity flows to the growth floor 6. The screen also ensures that water falling on its outside flows via the inclined plane 11 to the growth base 6.

Claims (11)

Watering system comprising: - a moisture-impermeable material, which is designed to span a substantially helmet-shaped space above a substrate, and which runs along its protruding edges to a growth base in which crops can root, and - a space-containing water reservoir, arranged to precipitate evaporated water from it against the inside of the material and allow it to flow through the inside of the edges, through the inside of the edges, to the growth medium. Watering system according to claim 1, characterized in that the crops protrude through the edges of the material to root in the growth soil. Watering system according to claim 1 or 2, characterized in that the watering system has a screen arranged in the space above the reservoir. Watering system according to claim 3, characterized in that the screen is configured in such a way that it prevents that water dripping on its outer side falls back into the reservoir and / or promotes the flow of water to the growth soil against its inner side. Watering system according to any one of claims 1- 4, characterized in that the moisture-impermeable material is flexible, and preferably contains a foil, in particular a plastic foil. Watering system according to any one of claims 1- 5, characterized in that the reservoir is a pit, a cavity, an open tube, or a channel, which reservoir is filled with contaminated or uncontaminated water, or, for example, fresh or salt water. Watering system according to any one of claims 1- 6, characterized in that one or more rows of substantially helmet-shaped spaces are arranged on the ground. Watering system according to claim 7, characterized in that the rows of spaces are mutually connected by the channel-shaped reservoir passing therethrough. Watering system according to any one of claims 18, characterized in that the spaces form individual separate spaces and / or contiguous tunnels. 10. Method in which: - fed to washed water rooted in a growth soil, which has precipitated against the inside of a material, which is impermeable to moisture, and which material is designed to span a substantially helmet-shaped space above a surface and which precipitated water along said inside below influence of gravity flows to the growth bed, and - a space-containing water reservoir generates the water vapor, whereby the crops rooting in the growth soil receive water flowing to the growth soil via the sides of the material edges facing the growth soil. A method according to claim 10, characterized in that the crops are passed through the protruding edges of the preferably flexible material.