NL1030247C2 - Crop e.g. peppers cucumber, cultivating device for enclosed growing space, has media containing crops, and water carrier that is made with specific percentages of area under which carrier includes water - Google Patents

Abstract

The device has a media e.g. pot, containing crops, and a spray system (4) spraying water to a cultivation area containing spot of crop production of a water spray i.e. fog. A water carrier is made with 30 percentages of an area under which the carrier includes water. A temperature control unit (18) regulates ratio of temperature of the water from the spray system and temperature of the water in a basin (16) to withdraw water. An independent claim is also included for a method for cultivating a crop.

Description

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Device and method for growing a crop

The present invention relates to a device for growing a crop in a closed cultivation space, comprising carriers for the crop, a misting system for generating a water spray (fog) in said cultivation space at the location of the crop.

Such a device consists in the prior art of spaces in which the cultivation of a crop takes place immediately after propagation. In very small spaces, very large numbers of crops are grown in a compact manner.

It has also been proposed to use a device for growing a crop in which a mist is substantially constantly present on a larger scale, for example in greenhouses. In view of the expected higher yield of the crops, such a device for growing is very promising. However, it is important that on the other hand the humidity at the location of the leaves or other crop parts is not too great to prevent condensation on the crop and resulting rot and mold. On the other hand, the crop still needs to be supplied with water separately.

The object of the present invention is to avoid these disadvantages of the prior art and to provide a device for promoting the cultivation of crops in which crop parts are constantly present in a fog.

This object is achieved in a device described above in that a water basin is arranged underneath those carriers, wherein at least 30% of the surface below those carriers comprises that water basin.

More in particular, the surface area is at least 50% and according to a preferred embodiment at least 70%. In addition, temperature control means are provided according to a further advantageous embodiment, for controlling the ratio of the temperature of the water leaving the spraying system and the temperature of the water in that water basin, said control means being designed such that the temperature of that water in that basin is lower than the temperature of that water emerging from the misting system.

Due to the presence of a water surface on the bottom of a greenhouse or other cultivation area, a condensation site is provided for the water spray. The combination of the temperature of the sprayed water from the atomization system and the temperature in the water basin allows precise control of the climatic conditions of the crop.

With the aid of the misting system, a "fog blanket" can be applied around the crop, the temperature of which is precisely known. By applying a water basin that preferably has a lower temperature than this mist, a temperature gradient in the growing space and over the height of the crop can be set. After all, if the root part of the crop is near the water basin, condensation of water will occur there.

More particularly, the aim is to select the air humidity in the mist 10 lower than 100%, and preferably higher than 60%, and more particularly at approximately 85%. Under those circumstances, due to the precise control of the temperature of the crop part that is in the mist or fog, no condensation will occur there. The stomata of the crop parts will, however, open.

At the roots, condensation will occur due to the lower temperature, as a result of which watering of the crop is automatically provided.

In other words, with the device according to the present invention, watering of crop can be avoided entirely or largely.

There are many possibilities for realizing the temperature gradient described above in a growing space and more particularly over the height of a crop.

According to an advantageous embodiment, the crop is arranged in carriers such as pots or other containers. These carriers can be located a short distance above the water basin. However, it is also possible to arrange these containers in the water basin. It must of course be ensured that the roots of certain crops are not in constant contact with the water to prevent rotting. This can be done with an ebb / flow system. It is also possible to place the crops on a floor in which channels open upwards are provided through which water flows continuously or at regular intervals, the temperature of which is lowered relative to the temperature of the mist present at the leaves / fruits that in the roots sufficient condensation occurs to render individual watering largely unnecessary.

It will be understood that with an ebb / flow system the ebb / flood system can also add water to the crop.

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Due to the presence of a water surface on the floor of a cultivation space, the heat balance in the greenhouse or other cultivation space can be accurately determined. Moreover, water circulation is provided because the mist constantly condenses in the basin. The condensed moisture can be returned to the spraying installation! 5 may be added with or without raising the temperature.

! All kinds of additives can of course be used to promote plate growth in the broadest sense of the word.

The height of the water layer in the basin can be small from a few millimeters i J to centimeters. With the aid of the basin, the dew point of the water that is present as mist 10 can be accurately controlled.

The invention also relates to a crop arranged in a holder, said holder comprising a floating body and being provided with a projecting edge engaging from below.

According to a further aspect of the invention, it relates to a method for growing a crop in a growing space comprising placing the leaf part / fruit part of that crop in a water spray, said leaf part / fruit part of that crop being placed above a water surface is becoming.

The invention will be explained in more detail below with reference to an exemplary embodiment shown in the drawing. In the drawing: Figure 1 shows diagrammatically a cultivation space designed as a greenhouse with the device according to the invention;

Figure 2 shows a detail of the construction shown in Figure 1; and

Figure 3 shows a detail of the construction shown in Figure 2 in top view.

In figure 1, 1 denotes a greenhouse which functions as cultivation space. It should be understood that according to the present invention other spaces are also suitable for this. Such spaces may or may not be provided with a light-transmitting surface, whether or not supplemented with separate lighting.

The roof of the greenhouse is indicated by 2 while the bottom is indicated by 3. A nebulizing system is present and this is indicated by 4. This misting system 30 is designed to promote the growth of the crop by applying a mist to the crop at least during a part of the growing period of the crop. This must be distinguished from systems that provide (temporary) water in the form of a mist. Due to the presence of a mist around the leaves or fruit of the crop, a very accurate temperature control can be provided on site. This temperature can be any desired temperature and is determined depending on the type of crop. Examples of crops are bell peppers, cucumbers, pot plants and the like.

According to the present invention, the crop 13 is included in pots 12. On these pots 12 floating bodies 11 are arranged which are common to a number of pots.

A large part of the floor or bottom 3 of the greenhouse is occupied by water basins 16. The surface thereof is at least 30% of the total floor surface on which crops are placed and preferably at least 50% and more particularly at least 70 % thereof. Water on soil 3 can be present continuously but also periodically. Moreover, it is possible not to provide the entire surface with water, but only channels. The height of the water level cart, depending on the desired conditions, can be selected in the range of a few 15 mm to tens of cm's. In the latter case, the basin can serve as a heat and / or water buffalo. When used as a water buffer, atomized water can be (temporarily) stored. The water can circulate in any way, e.g. from the fog system in the basin back to the fog system.

It is always the intention to accurately set a temperature level at the bottom by the presence of water on the bottom of the chamber. Water can possibly flow, preventing the formation of unwanted fungi and the like.

Preferably, the temperature difference between the water leaving the misting system 4 with respect to the temperature in the basin 16 is set such that continuous water from the misting system condenses in the water basin. In this way a continuous controlled movement of fine water particles is obtained and the temperature at the location of the crop can be accurately controlled. In addition, the temperature prevailing at a higher level in the greenhouse or other cultivation space is completely subordinate thereto, because the temperature encountered by the crop (partly) determines its growth.

According to an advantageous embodiment, the temperature difference is set such that humidity of less than 100% prevails at the location of leaves and fruit in the mist due to condensation of water droplets or I

1 03024 7 5 to prevent the crop. More particularly, this humidity is less than 90% such as about 85%.

According to the present invention, a transport system is present in the greenhouse for moving the crops from a position in / above basin 16 to a transport 5 and / or processing position.

This construction consists of two rails 5 arranged above one another in which a carriage 6 can run back and forth in the horizontal direction. Trolley 6 consists of a frame 19 in which a bridge 8 can be moved up and down with the aid of a motor 7.

Wires or rods 9 are attached to the bridge on which the floating bodies are suspended.

The wires or rods 9 are provided with gripping lugs 10 arranged at the end thereof. All this is shown diagrammatically in FIG. The suspension wires or rods are rotatable in any way, so that in the non-supporting position of the suspension wires or rods it is possible to turn under the floating bodies 11 when turning. This rotation is controlled with the aid of a strip 14 which can be moved back and forth in the direction of arrow 15.

Denoted as 17 are depositing supports in which the crops can be placed in the floating bodies. They can then be transported further.

It will be understood that conveyor belts and the like can be used instead of the depositing supports.

In the present exemplary embodiment, a floating body 11 is shown in which a number of pots 12 are arranged in a row. It is possible to arrange different rows of juxtaposed pots in a floating body, but it is also possible to use only one floating body for each pot. Moreover, it is possible to provide the pots themselves with floating capacity. With the help of floating bodies it is possible to place the pots in basin 16 where they float.

However, it will be understood that other cultivation methods are also possible without floating bodies, wherein the pots are placed on the bottom of the greenhouse where a water layer is also present. This water layer can be present continuously but also periodically.

It will be understood that transport systems other than the system described above can be used.

With the present invention, with correct control by means of control 18 of the temperature of the basin 16 and the water emerging from the misting system 4, it is no longer necessary to water the crops in a separate step. As a result, the handling of the crops can be considerably simplified and the cost price of the greenhouse construction considerably reduced.

The temperature of, for example, the water in basin 16 can be controlled by exposing the water in question to the environment at night, i.e. allowing it to cool off considerably naturally in the course of the radiation that takes place at night.

After reading the above, variants will immediately arise to those skilled in the art. These are obvious and are within the scope of the appended claims, whereby it is to be understood that rights are expressly requested for the subject matter described in the subclaims independent of the main claim.

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Claims (15)

4 Device for growing a crop (13) in a closed cultivation space (1), comprising carriers (12) for the crop, a misting system (4) for generating a water spray at said crop area at the location of the crop (1) mist), characterized in that a water basin is arranged underneath said carriers (13), at least 30% of the surface below said carriers comprising said water basin. Device as claimed in claim 1, wherein at least 50% and preferably at least 70% of the surface beneath said carriers comprises that water basin. 3. Device as claimed in any of the foregoing claims, comprising temperature control means (18) for controlling the ratio of the temperature of the water leaving the spraying system (4) and the temperature of the water in said water basin, said control means being such that the temperature of that water in that basin (16) is lower than the temperature of that water leaving the misting system. 4. Device as claimed in any of the foregoing claims, in particular for plants (13) arranged in holders (12), wherein said holders are provided with floats (11) and the water basin is designed for receiving said holders. Device as claimed in any of the foregoing claims, comprising a transport system for those carriers. 25 Device as claimed in claim 5, wherein said transport system is designed for the suspended transport of said crops. 7. Device as claimed in claim 6, comprising a carriage (6) suspended from the top of said cultivation space, which carriage can be placed in horizontal direction and in vertical direction, provided with engaging means for engaging said carriers (12). 1030247 * Λ Device according to claim 7, wherein said engaging means (10) comprise hooks that can be placed underneath said carriers (12). A crop (13) arranged in a holder (12), wherein said holder comprises a floating body (11) and is provided with a protruding edge that can be engaged from underneath. A crop according to claim 9, wherein said floating body is common to a number of holders (12). A method for growing a crop in a growing space (1) comprising placing the leaf part / fruit part of that crop in a water spray, characterized in that said leaf part / fruit part of said crop is placed above a water surface (16) . The method of claim 11, wherein the temperature of said water surface is set lower than the temperature of said water spray. A method according to claim 11 or 12, wherein the plant growth promoting substances are added to said water spray. 20 A method according to any of claims 11-13, wherein said crops float in a water basin (16). J 15. Method as claimed in any of the claims 11-14, wherein said crops are received in holders 25, which are moved vertically and horizontally through said cultivation space. 1030247