NL2025125B1 - Crop holder and cultivation facility - Google Patents

Abstract

A crop holder, provided with a cultivation substrate (20) for a crop to be grown therein, comprises a substantially liquid-tight jacket (10) in which the cultivation substrate (20) is arranged. The sheath (10) is expandable from a relatively compact, in particular planar, initial state to an expanded state. The culture substrate (20) includes a swelling material 10 which upon hydration swells from an initial compact state to a swollen state. When the swelling material is swelling, the jacket (10) changes from the relatively flat initial state to the expanded state and the swelling material (20) is provided with at least one seed (25) or germ of the crop. Such a container is in particular intended for a cultivation device with a cultivation layer in which the container can be placed. 15 3B

Description

Crop holder and cultivation device The present invention relates to a crop container provided with a cultivation substrate for a crop to be grown therein, comprising a substantially liquid-tight jacket in which the cultivation substrate is arranged.

Such a crop holder is particularly suitable for keeping and cultivating one or more plants of a crop. The crop can then be moved and traded together with the holder. Compared to a cut crop, this offers the advantage that the crop has a longer shelf life and remains in a better condition up to the end user/consumer, because the root system is preserved and the crop can continue to draw both moisture and nutrients from the substrate for longer. A known example of such a container is a plastic pot filled with cultivation soil in which a kitchen herb such as basil, parsley or dill was grown. The crop is traded together with the holder and thus stays fresh longer.

Although the freshness of the product can thus be guaranteed for a longer period of time up to the end user/consumer, this known crop holder has the drawback in comparison with cut crops that the crop thus requires relatively much space and cannot be stacked. This is disadvantageous from both an economic and logistical point of view.

The object of the present invention is, inter alia, to provide a crop holder which can bring a crop to be grown therein in fresh form to the end user/consumer, while the above-mentioned logistical drawbacks are at least significantly avoided.

To this end, a crop container of the type described in the preamble according to the invention has the feature that the jacket can be expanded from a relatively compact, in particular flat, initial state to an expanded state, that the cultivation substrate comprises a swelling material which upon hydration swells from a compact initial condition to a swollen condition, that the jacket changes from the relatively flat initial condition to the expanded condition upon swelling of the swelling material, and that the swelling material is provided with at least one seed or germ of the crop. The container containing, for instance, a seed of the crop can thus be provided and handled in a compact form. The seed requires little or no moisture and/or nutrients and therefore remains viable for a relatively long time. In this condition, the product is particularly practical to handle, stackable and compactly transportable.

-2- Once at a final destination, a hydration of the substrate material is sufficient to cause this to swell. The substrate material now offers both moisture and space for the development of a root system of the further germinating crop. Thanks to the jacket, however, the whole retains cohesion and the crop holder remains practically manageable. The crop develops in the container in a short time, which thereby provides optimum freshness to the crop at the end user. Incidentally, it should be noted that where in the present application reference is made to hydration, this does not only refer to irrigation with pure water, but should be understood to mean any form of moistening that causes the substrate to swell and thereby also offers a fertile growing environment for the crop. .

Although the substrate material per se can be provided in the jacket in various forms, for instance in the form of loose flakes, a preferred embodiment of the crop holder according to the invention is characterized in that the swelling material starts from at least one swelling body which swells from the compact upon hydration. initial state to the swollen state. The substrate swelling body can thus be introduced into the mantle, provided with a germ or seed of the crop. in a special embodiment, the crop holder is characterized in that the swelling body comprises a hydrophilic strip body with an initial strip thickness and a strip length, and that the strip body swells anisotropically upon hydration to an expanded strip thickness with substantially the same strip length, wherein more in particular the strip body the initial state in a rolled or folded state lies within the jacket. The anisotropic swelling only gives, at least mainly, swelling in the thickness direction of the material that can be positioned in the jacket such that that thickness direction corresponds to a direction of expansion of the jacket. In transverse direction, the whole is thus relatively dimensionally stable and the substrate offers development space to the crop. From an environmental point of view, a further preferred embodiment of the crop container according to the invention has the feature that the swelling material is at least substantially completely biodegradable. To this end, a special embodiment of the crop container is characterized in that the swelling material comprises a compressed fiber structure of organic fibres. Thus, the worked-out substrate, together with any residues of the crop, can be entrusted to a green waste stream in order for instance to be composted together with it.

According to the invention, a special practical embodiment of the crop holder is characterized in that the jacket comprises a form-fitting plate body which is folded into a relatively flat configuration, which provides it with the initial position. The form-fitting configuration gives strength and reliability to the jacket, while! the foldable offers the possibility of bringing the whole into a relatively flat, flat condition from which the crop holder is erected as soon as the substrate absorbs moisture. is degradable. In particular if both the jacket and the substrate are both biodegradable, the whole can be placed in an environmentally friendly green waste stream after use for biodegradation. A suitable embodiment of the crop holder has the feature in that regard that the jacket is formed from a waterproof cardboard.

In a further preferred embodiment, the crop container according to the invention is characterized in that the expanding material comprises a strip body with a first longitudinal side and an opposite second longitudinal side and that the strip body comprises on one of the longitudinal sides an adjacent germinating zone which extends longitudinally into the strip body, and that the strip body contains one or more seeds of at least one crop in the germination zone. The swelling body is thus also a carrier for one or more seeds of the crop, which can germinate and root therein after hydration in the substrate. The end user/consumer only needs to add an amount of moisture to the substrate to make this possible and see the harvest appear over time. A maximum absorption capacity of the substrate automatically determines and regulates a correct moisture balance so that over-irrigation will not occur quickly.

According to the invention, a further special embodiment of the crop holder is characterized in that the strip body comprises a root zone between the germination zone and the opposite longitudinal side of the strip body, which extends longitudinally in the strip body, and that the strip body in the root zone contains one or more nutrients for contains at least one crop. In such a design, not only seeds but also nutrients for the crop to be developed therein are already included in the substrate. These are specifically provided in the root zone because the root system of the crop will develop there. The nutrients can be precisely matched and dosed to the crop, whereby

A- preferably the starting point is a form which gives a delayed release in a moist environment, which is sufficient for the complete growth process of the crop. In addition to a single plant or set of plants, the crop holder can also be arranged for a series of crops, which may or may not be the same. To this end, a special embodiment of the crop holder is characterized in that the jacket is coupled to at least one similar further jacket in which a further expansive body is accommodated and in particular forms part of a matrix of mutually coupled jackets with expanded bodies incorporated therein, which matrix is erected at expansion of the cloaks.

The invention also relates to a cultivation device which is specifically suitable in combination with the above-described crop holder according to the invention. Such a cultivation device comprises a cultivation chamber which is provided with air treatment means which are capable and adapted to maintain an artificial atmosphere in the cultivation chamber and with artificial lighting means which are capable and adapted to cast photosynthetically active artificial light in the cultivation chamber, wherein in the cultivation chamber at least one cultivation layer is provided on which at least one crop holder according to the invention can be placed, and wherein the air treatment means and the artificial light means are coupled to a control device which controls the air treatment means and the artificial light means in order to subject the crop in the cultivation room to a predetermined cultivation climate. Although not exclusively but in particular, this concerns a cultivation room in a table-sized or cabinet-sized apparatus in which one or more crop containers according to the invention can be received. The atmosphere and light management imposed therein provide the crop with an artificial microclimate which can be tailored in particular to the crop or crops to be cultivated. In a preferred embodiment, the cultivation device herein has the feature that moistening means are provided in the cultivation chamber which are capable and adapted to moisten the at least one crop holder in the at least one cultivation layer. In this case, the wetting means not only ensure an adequate irrigation of the crop, but also provide an initial hydration of the substrate material in the mantle, which will thereby erect to provide a suitable nutrient medium for the crop. A further special embodiment of the cultivation device has the feature that at least one of the

-5- at least one crop holder carries an electronically readable crop identification and that reading means are provided for reading out the crop identification and delivering it to the control device, and that the air treatment means, the artificial light means and the humidifying means can be used by the control device on the basis of the crop identification in a growth stage of a crop can be controlled crop-dependently. The cultivation device is thus able to receive the crop holder(s) completely autonomously and to grow the crop therein. The whole is therefore particularly user-friendly and requires no specific crop knowledge or intervention from the user. The invention will be explained in more detail below on the basis of an exemplary embodiment and an associated drawing. In the drawing: Figure 1 shows in longitudinal section a first exemplary embodiment of a crop container according to the invention in a compact initial position; Figure 2 is a plan view, the crop container of figure 1 in an expanded, swollen condition; Figure 3A in cross-section, an application of the crop holder of figure 1 in its original condition; Figure 3B in cross-section, an application of the crop holder of figure 1 in an erected condition; figure 4 shows a longitudinal section of a second exemplary embodiment of a crop holder according to the invention in a compact initial position; Figure 5 shows a side view of a substrate body as used in the crop holders of figures 4; and Figure 6 shows a top view, the crop holder of figure 4 in an expanded, swollen condition. It should also be noted that the figures are purely schematic and not always drawn on (the same) scale. In particular, for the sake of clarity, some dimensions may be exaggerated to a greater or lesser extent. Corresponding parts are indicated in the figures with the same reference numerals.

A first exemplary embodiment of a crop holder according to the invention is schematically shown in figure 1. The crop holder comprises a form-fitting jacket 10, which here is formed from a strip of biodegradable cardboard. The cardboard is provided with a coating that makes it

-6- makes cardboard impervious to moisture. The jacket 10 thus offers a practically liquid-tight barrier laterally, but is completely open at the bottom. A substrate material 20 of biodegradable organic fibers is arranged within the sheath. This material is widely used as a cultivation substrate in hydroponics for soilless cultivation of crops and is used for this purpose by, among others, or on behalf of the British company InseroTech Ltd. marketed under the name InseroMat. The material is fully biodegradable, free of pathogens and safe in direct contact with food. In addition, the material has an exceptionally large absorption capacity for water.

In the dry state shown in Figure 1, the fibers of the substrate material 20 are in a compressed state. The substrate material used is shown in more detail in Figure 5 and comprises a strip body which is commercially available under the product name IseroMat. The strip body 20 is folded or rolled up into a compact core and in that shape lies within the jacket 10. Not only the substrate 20 but also the jacket 10 is folded relatively flat, so that the whole of figure 1 represents a relatively compact initial condition of the crop container. .

Once in contact with water, the material of the substrate 20 immediately swells and the material provides a moist open structure, which is ideal for seed germination and root growth of a crop to be grown therein. Due to the swelling of the substrate 20, the sheath 10 also changes from the initial state shown in figure 1 to an expanded state, whereby the situation of figure 2 is reached. The form-fitting jacket 10 is now taut and is completely filled with the swollen substrate material 20. Use is advantageously made of this for the individual cultivation of one or more crops.

The strip body 20 used as substrate, see figure 5, comprises a germination zone 21 which extends over a length of the strip body and in which one or more seeds 25 of the crop to be cultivated are accommodated. The seeds 25 are, for example, adhered to the strip body with sugar or starch. A root zone 22 is situated between the germination zone and the opposite longitudinal side of the substrate, where nutrients for the crop have already been incorporated in the substrate material beforehand. For this purpose, it is advantageous to use granules which slowly dissolve or break down in a moist environment or which form a shell through which salts diffuse only slowly. In this way, a delayed release of nutrients is achieved, so that on the one hand sufficient nutrition can be given to the developing crop for a long time and on the other hand salinization of the substrate is counteracted.

The crop container filled with the substrate of figure 5, see figure 3A, is immediately ready for use. The container is, for instance, placed in a liquid-tight bowl 30, into which water is poured from a tap 40 or otherwise. The water reaches the substrate 20 via the underside of the jacket 10, which instantaneously swells as a result, so that the whole assumes the state shown in figure 3B. All the moisture has been absorbed in the substrate and the seeds 25 can now germinate therein in order to allow the crop 50 to root in the root zone with nutrients. Over time, the crop is ready to be harvested.

The set-up shown here is particularly suitable for the cultivation of fresh tea and kitchen herbs such as basil, oregano, parsley, dill and chives, but can also be used for many other crops. The compact, dry initial state offers the advantage that the whole can be stored and shipped in a particularly practical way, while the filling with substrate, food and seeds makes the whole particularly user-friendly and does not presuppose any specific crop knowledge on the part of the user. Merely adequate irrigation is sufficient, whereby the substrate regulates an uptake of water independently due to its maximum absorption capacity.

Besides on a relatively small, individual scale, the crop holder according to the invention can also be designed in multiple ways. Figure 4 gives an example of this. In this case, a number of jackets are interconnected. The individual jackets are comparable to those of figure 1 and mutually coupled through connecting bodies 12,14 of the same material as that of the jackets 10 themselves, i.e. strips of water-repellent cardboard. The strips 12,14 lie folded together between the containers connected thereby, so that the relatively compact and flat structure shown in figure 4 is obtained. Once in contact with water, there follows a hydration of the substrate material 20 used within the shells 10 which swells as a result. The sheaths 10 now expand to the expanded shown in Figure 6.

-8- condition, which is partly imposed by the connecting bodies 12,14. This is a matrix of individual crop holders, each of which can contain the same or a different crop (seed). The example is based on a 4x3 matrix, but it should be clear that in practice any matrix or other configuration is conceivable. In particular, the assembly can thus be adapted for use in a cultivation device according to the invention. An example of such a cultivation device is shown in figure 7 and comprises a table-sized device 100 with a conditioned cultivation chamber 105 therein. The cultivation chamber 105 is provided with air treatment means, not shown in more detail, with which a humidity and air temperature within the cultivation chamber 105 are accurately monitored and regulated, thereby controlled by a control device provided for that purpose in or outside the appliance. Artificial light means 120 are also provided in the form of a matrix of light-emitting diodes (LEDs) which alternately emit photosynthetically active red and blue light, respectively, and which can be controlled by the control device in a desired ratio.

In the cultivation chamber, a cultivation layer 110 is provided in the form of a plateau on which a container of the type as shown in figure 4 can be placed. The crop matrix formed therefrom after swelling of the substrate 20 is adapted to the dimensions of the platform 110. The device further comprises an irrigation device 130 for the platform 110 with which the crop containers can be hydrated and with which moisture can also be supplied afterwards. The crop can extract nutrients from the substrate 20 fed therewith. By means of a selector switch 150, a cultivation recipe that is tailored to the crop to be cultivated can be selected, on the basis of which the control device controls the air treatment means and the artificial lighting means in a time-dependent and time-sequential manner in order to impose and maintain a desired climate and light management within the cultivation area 105. . Alternatively, the crop holder 10,20 can comprise an electronically readable crop identification which is read by a reader provided for this purpose in the climate chamber 105 and which is supplied to the control device. In that case, the intended climate and light control for each growth stage of the crop takes place fully automatically, depending on the crop. Over time, the crop develops in the cultivation area, which can eventually be harvested in optimal fresh condition. This development can be monitored via an inspection window 140.

Although the invention has been further elucidated above on the basis of only a single exemplary embodiment, it will be apparent that the invention is by no means limited thereto.

On the contrary, many variations and embodiments are possible within the scope of the invention for an average skilled person.

Claims (15)

-10- Conclusions: A crop holder provided with a cultivation substrate for a crop to be grown therein, comprising a substantially liquid-tight casing in which the cultivation substrate is arranged, characterized in that the casing can be expanded from a relatively compact, in particular flat, initial state to an expanded state, that the culture substrate comprises a swelling material which upon hydration swells from a compact initial state to a swollen condition, that the mantle changes from the relatively flat initial condition to the expanded condition upon swelling of the swelling material, and that the swelling material of at least one seed or germ of the crop is provided. Crop holder according to claim 1, characterized in that the swelling material starts from at least one swelling body which swells upon hydration from the compact initial state to the swollen state. 3. Crop holder as claimed in claim 2, characterized in that the swelling body comprises a hydrophilic strip body with an initial strip thickness and a strip length, and in that the strip body swells anisotropically upon hydration to an expanded strip thickness with a strip length that remains substantially the same. Crop holder according to claim 3, characterized in that in the initial position the strip body lies inside the jacket in a rolled or folded position. A crop container according to one or more of the preceding claims, characterized in that the swelling material is at least substantially completely biodegradable. A crop container as claimed in one or more of the foregoing claims, characterized in that the swelling material comprises a compressed fiber structure of organic fibres. 7. A crop container as claimed in one or more of the foregoing claims, characterized in that the casing comprises a form-fitting plate body which is folded into a relatively flat configuration, which provides it with the initial position. -11- 8. A crop container as claimed in one or more of the foregoing claims, characterized in that the jacket is at least substantially completely biodegradable. 9. Crop holder as claimed in claim 8, characterized in that the jacket is formed from a waterproof cardboard. A crop container as claimed in one or more of the foregoing claims, characterized in that the expanding material comprises a strip body with a first longitudinal side and an opposite second longitudinal side, and in that the strip body comprises on one of the longitudinal sides an adjacent germinating zone which extends longitudinally into the strip body, and in that the strip body contains one or more seeds of at least one crop in the germination zone. 11. Crop holder as claimed in claim 10, characterized in that the strip body comprises a root zone extending longitudinally in the strip body between the germination zone and the opposite longitudinal side of the strip body, and that the strip body in the root zone contains one or more nutrients for at least contains one crop. 12. Crop holder according to one or more of the preceding claims, characterized in that the jacket is coupled to at least one similar further jacket in which a further expansive body is accommodated and in particular forms part of a matrix of mutually coupled jackets with expanded bodies incorporated therein, which matrix erects upon expansion of the shells. 13. Cultivation device comprising a cultivation room which is provided with air treatment means which are capable and arranged to maintain an artificial atmosphere in the cultivation room and with artificial lighting means which are capable and adapted to cast photosynthetically active artificial light in the cultivation room, wherein in the cultivation room at least one cultivation layer is provided on which at least one crop holder according to one or more of the foregoing claims can be placed, and wherein the air treatment means and the artificial light means are coupled to a control device that controls the air treatment means and the artificial light means in order to adjust the crop in the cultivation room to a predetermined cultivation climate. Cultivation device according to claim 13, characterized in that moistening means are provided in the cultivation chamber which are capable and adapted to moisten the at least one crop holder in the at least one cultivation layer. 15. Cultivation device according to claim 14, characterized in that at least one of the at least one crop holder carries an electronically readable crop identification and that reading means are provided for reading the crop identification and delivering it to the control device, and that the air treatment means, the artificial lighting means and the wetting means can be controlled by the control device on the basis of the crop identification in a growth stage of a crop, depending on the crop.