• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The element (50) is intended to be placed in a container for the cultivation of at least one plant, and comprises: - a substantially solid body (52) comprising a substrate able to allow said plant to develop; - at least one seed (51) of said plant disposed on the body in at least one receiving zone (53) of seeds; - A layer for maintaining the seed or seeds in said receiving zone, comprising a dried mineral powder. The holding layer results from drying a deposit of a holding composition (60) comprising a mineral powder suspended in water.
    公开号:FR3062985A1
    申请号:FR1751274
    申请日:2017-02-17
    公开日:2018-08-24
    发明作者:Nicolas Gehin;Chloe Verneuil
    申请人:Veritable;
    IPC主号:
    专利说明:

    ® FRENCH REPUBLIC
    NATIONAL INSTITUTE OF INDUSTRIAL PROPERTY © Publication number: 3,062,985 (to be used only for reproduction orders)
    ©) National registration number: 17 51274
    COURBEVOIE © Int Cl 8 : A 01 G 24/44 (2017.01), A 01 G 9/02, A 01 C 1/06
    A1 PATENT APPLICATION
    ®) Date of filing: 17.02.17.©) Priority: ©) Applicant (s): VERITABLE Simplified joint stock company - FR. ©) Date of public availability of the request: 08/24/18 Bulletin 18/34. @ Inventor (s): GEHIN NICOLAS and VERNEUIL CHLOE. ©) List of documents cited in the preliminary search report: See the end of this booklet (© References to other related national documents: ©) Holder (s): VERITABLE Simplified joint-stock company. ©) Extension request (s): ® Agent (s): CABINET GERMAIN & MAUREAU.
    ELEMENT FOR THE CULTURE OF AT LEAST ONE PLANT AND METHOD FOR PRODUCING THE ELEMENT.
    FR 3 062 985 - A1
    The element (50) is intended to be placed in a container for the cultivation of at least one plant, and comprises:
    - a substantially solid body (52) comprising a substrate capable of allowing said plant to develop;
    - at least one seed (51) of said plant placed on the body in at least one receiving zone (53) of seeds;
    - a retaining layer of the seed or seeds in said reception zone, comprising a dried mineral powder.
    The retaining layer results from the drying of a deposit of a retaining composition (60) comprising an inorganic powder suspended in water.

    The present invention relates to an element intended to be placed in a container for the cultivation of at least one plant. The invention also relates to a system for cultivating at least one plant comprising such an element, and to a method for producing such an element.
    There is a growing demand for indoor gardens that allow you to grow fruits, vegetables, and aromatic herbs at home all year round, in a simple way.
    Conventionally, such a vegetable patch is a plant cultivation system which comprises a tank containing water, as well as containers placed in the tank and designed to allow the ascent of water by capillarity. Each of the containers receives an element comprising a body comprising a substrate, and at least one seed placed on the body.
    Items are consumables that the user buys, uses and then replaces as needed. It is imperative that the seeds are well maintained on the body during transport and storage of the element so that they remain present, of course, but also so that their positioning on the substrate remains unchanged. Indeed, this positioning is generally predetermined to allow satisfactory germination of the seeds. Thus, it is known to provide a device for holding the seed or seeds in the reception area.
    A first known solution consists in providing a cover covering the seed (s), the cover having a sticky part to be fixed on the body of the element, and a non-sticky part facing the seeds. The user only has to remove the seal before placing the element in the container. This solution therefore requires an additional operation on the part of the user and generates waste.
    According to a second known solution, the seed or seeds are deposited in a hollow housing formed in the body, and a substrate is deposited on the seed or seeds, by filling the housing. Again, a sticky seal may be provided, as described above. There are therefore the same drawbacks as those mentioned above.
    A third known solution consists in depositing on the seed or seeds a drop of a composition containing water and food glue. The seeds are therefore stuck on the body, which ensures their maintenance. However, this solution poses a number of problems. In particular, it does not ensure sufficient maintenance of large seeds, and does not allow satisfactory management of the humidity level in the vicinity of the seed. In addition, if the glue ensures the maintenance of the seeds, in any case seeds of small dimensions, on the other hand it offers only very little protection against external aggressions. In addition, the use of food glue can confer an unnatural appearance likely to put off the user.
    The invention aims to provide an element in which the seeds are maintained satisfactorily, and which solves all or part of the aforementioned problems.
    To this end, and according to a first aspect, the invention relates to an element intended to be placed in a container for the cultivation of at least one plant, the element comprising:
    - a substantially solid body comprising a substrate capable of allowing said plant to develop;
    - at least one seed of said plant placed on the body in at least one seed receiving zone;
    - a retaining layer of the seed or seeds in said reception zone;
    wherein said retaining layer comprises a dried mineral powder.
    By “substantially solid”, it is meant that the element has a defined shape, and that, when it is handled during its normal use (transport, installation in the culture system), it retains this shape. This does not preclude local deformation of the element - for example the creation of a notch by a user's fingernail. Of course, significant deformation of the element remains possible under forces greater than those exerted for the intended use of the element.
    Furthermore, it is specified that the fact that the seed is placed on the body means that the seed is not pressed into the body itself, but deposited on a surface of the body of the element. This does not exclude that the seed is placed in a body cavity open towards the outside of the body, the seed then remaining visible and accessible from outside the body.
    The invention provides that the retaining layer comprises a dried mineral powder, that is to say a mineral powder which, initially wet or dispersed in an aqueous solution, has dried. In other words, there was elimination of water, for example by simple air drying and / or by absorption of water in the body, typically in the substrate. Thus, on the ready-to-use element, the retaining layer is dry, that is to say substantially not impregnated with liquid.
    The presence of a retaining layer comprising a dried mineral powder has many advantages.
    In addition to the simplicity of manufacture, this solution ensures a high reliability of the maintenance of seeds in the body, whether small or large seeds, as well as a significant resistance to shocks and vibrations.
    The effectiveness of the solution according to the invention is reflected at the time of transport, since the dried mineral powder makes it possible to firmly fix the seed on the body, but also at the time of storage and germination. Indeed, the use of a mineral powder allows faster drying than with a food glue, which results in the reduction of the time of exposure of the seed to humidity. This results in a better germination rate after conservation since the seed did not stay for a long time in a humid environment, which could have the effect of starting the germination process and compromising the quality of the seed for the rest . In addition, when using the element, the mineral powder provides essential nutrients for the development of the plant.
    Another significant advantage of the invention is to provide an element having a natural appearance, which is generally an important factor for the user of such culture systems.
    According to a possible embodiment, the retaining layer covers and includes the seed or seeds in the reception zone. Coating the seeds - as opposed to simply depositing film as is the case with food glue, protects the seed (s) from external aggressions, but also provides a higher level of humidity around the seed when using the item.
    Provision may be made for the reception zone to include a hollow housing formed in the body and open upwards, in the position of use of the element, the seed or seeds being placed at the bottom of the housing. In this case, the retaining layer may at least partially cover the interior surface of the housing, and not only the seed or seeds. This gives even better protection of the seed.
    The mineral powder can be a natural mineral powder. It can for example contain silicates.
    According to one possible embodiment, the mineral powder is chosen from the group comprising: clay, talc, pumice stone.
    The mineral powder can have a particle size between 5 and 200 μm, preferably between 20 and 100 μm, better still between 30 and 60 μm, for example of the order of 45 μm.
    In addition, the maintenance layer may comprise at least one compound chosen from: a fungicide, a germination promoting agent.
    According to a second aspect, the invention relates to a system for cultivating at least one plant, comprising:
    - a tank comprising a bottom, a peripheral wall and an upper opening, said tank being intended to contain water;
    - A tray arranged at the upper opening of the tank, comprising at least one window;
    - at least one mast supporting at least one light source;
    - at least one element as previously described;
    - At least one container comprising a bottom and a peripheral wall, the container receiving said element and being placed in the tray and received in a window of the tray.
    According to a third aspect, the invention relates to a method of producing an element intended to be placed in a container for the cultivation of at least one plant, the element comprising a substantially solid body comprising a substrate capable of allowing said plant to develop, and at least one seed of said plant placed on the body in a seed receiving zone, the method comprising depositing a maintenance composition on the seed or seeds previously placed on the body, in order to maintain the seed (s) in said receiving area. According to the invention, the method comprises depositing a maintenance composition which comprises a mineral powder in suspension in water.
    Concretely, the substrate contained in the body or forming the body rapidly absorbs the liquid, leaving a deposit of clay (and any additives) on the surface of the body, this deposit covering and encompassing the seed (s). The drying of the substrate then makes it possible to dehydrate the clay layer and to firmly maintain the seed (s) in the desired location. In practice, natural drying can be carried out, by storing the element in a standard interior environment (conventional humidity and temperature) for a drying phase of approximately twelve hours), before final packaging.
    In addition to the advantages obtained on the ready-to-use element, as explained above, the method according to the invention also has advantages, in particular great simplicity of implementation. Furthermore, the method according to the invention makes it possible to easily adapt the composition according to the seeds, in particular the amount of mineral powder according to the size of the seeds, and / or the optional additives according to the desired properties (germination time, protection against diseases, molds etc.).
    The mineral powder can be a natural mineral powder which can for example contain silicates. The mineral powder can be chosen from the group comprising: clay, talc, pumice.
    According to one possible embodiment, the maintenance composition comprises from 15 to 25% by mass, for example of the order of 20% by mass, of mineral powder. This mineral powder can have a particle size between 5 and 200 μm, preferably between 20 and 100 μm, better still between 30 and 60 μm, for example of the order of 45 μm. It may especially be a clay powder having a particle size close to 45 μm.
    The method may include stirring the maintenance composition before it is deposited on the seed or seeds. Such stirring aimed at preventing the mineral powder from depositing or amalgamating, and at homogenizing the maintenance composition, it is preferably carried out immediately before the deposition of the maintenance composition on the seed or seeds.
    The deposition of the maintenance composition can be carried out by means of a pump system. Alternatively, it can be done manually, for example with a pipette.
    In addition, the maintenance composition may comprise at least one compound chosen from: a fungicide, a germination promoting agent.
    When the reception zone comprises a hollow housing formed in the body and open upwards, in the position of use of the element, the seed (s) being placed at the bottom of the housing, the method can comprise depositing a maintenance composition in sufficient quantity to substantially fill the housing.
    A possible embodiment of the invention is now described, by way of nonlimiting example, with reference to the appended figures:
    Figure 1 is an exploded perspective view of a culture system of at least one plant according to the invention;
    Figure 2 is a perspective view of an element according to the invention, ready to be placed in a container of the system;
    FIG. 3 is a schematic view of an element illustrating the deposition of seeds and of a composition for maintaining the seeds on the element;
    FIGS. 4a to 4d schematically illustrate steps of the method of depositing a maintenance composition on an element;
    FIG. 5 is a schematic representation of a possible embodiment of the method according to the invention.
    Figure 1 shows a culture system 100 of at least one plant, which is particularly suitable for allowing cultivation inside a building.
    The system 100 comprises a tank 1 which has a bottom 2, generally planar, a peripheral wall 3 and an upper opening 4. The tank 1 is for example substantially parallelepipedic. Is thus defined inside the tank 1 a sealed receiving space, intended to contain water or another suitable liquid, to allow the cultivation of plants.
    We define the vertical direction Z, orthogonal to the bottom 2 when the tray 1 is placed on a support such as a table or a work surface. We also define the horizontal direction X, parallel to the long sides of the tank 1, and the horizontal direction Y, parallel to the short sides of the tank 1. In the following description, the different parts or components will be described in the position they occupy Operating.
    From the bottom 2 of the tray 1 protrudes a support 5, along Z and upwards. One or more masts 6 (two masts in the example shown) are engaged on or in the support 5. Each mast 6 carries a plurality of light sources 7, for example light-emitting diodes (LED), providing the light energy necessary for plant growth.
    The system 100 further comprises a tray 10 disposed at the upper opening 4 of the tray. The plate 10 can for example be detachably fixed on the upper edge 9 of the peripheral wall 3 of the container 1.
    The tray 10 comprises at least one window 11 intended to receive a container 20 containing the plants, the window 11 preferably having a shape complementary to that of the container 20. In the embodiment shown by way of example, the tray 10 comprises four windows 11. In addition, the windows 11 are substantially rectangular, with the large side oriented parallel to Y, this not being limiting. The tray 10 further comprises holes 12 for the passage of the masts 6, and a hole 13 allowing the user to pour water at the bottom of the tray 1 without having to remove the tray 10.
    A container 20 is intended to be placed in the tray 1, in each of the windows 11 of the tray 10. The container 20 can be made of plastic, for example by molding. The container 20 comprises a bottom 22 and a peripheral wall 23, and has an upper opening 24. It is here substantially parallelepipedal, this not being limiting.
    The container 20 can be provided with feet 27 extending from the bottom 22 downward, to allow a support on the bottom 2 of the tank 1 and a distance from the bottom 2 of the tank 1. It can be provided that , in the mounted position, the container 20 is substantially flush with the plate 10.
    In addition, the container 20 comprises a chimney 31 which extends substantially vertically downwards from the bottom 22, over a height less than or equal to that of the feet 27, and which opens into the bottom 22. In the chimney 31 is disposed a member for transporting liquid by capillary action, such as a wick. So that this member is in contact, in its lower part, with the water present in the tank 1, provision can be made for the member to extend beyond the lower end of the chimney 31, and / or the chimney 31 has an orifice 34 at its lower part, through which water can penetrate in order to reach the organ.
    Furthermore, the system 100 comprises at least one element 50 which is intended to be placed in a container 20, as illustrated diagrammatically in FIG. 2. The element 50, which constitutes a refill ready to be used, comprises a body 52 substantially solid, the dimensions of which allow it to be inserted into a container 20. The element 50 can thus generally have the shape of a parallelepiped. For example, its dimensions can be as follows: dx = 140 mm, dy = 40 mm, dz = 80 mm.
    The body 52 comprises a substrate capable of allowing the plant to develop. The substrate may for example comprise one or more cellulosic materials, in the form of fibers and / or powder, such as coconut fibers, bamboo fibers, coconut powder. The body 52 may also include a fertilizer.
    The element 50 further comprises at least one seed 51, and in practice several seeds 51 (see FIG. 3). The seed or seeds 51 are arranged on the body 52 in at least one seed reception zone. For example, as illustrated in FIGS. 2 and 3, the reception zone comprises a recess 53 formed in the body 52 and open upwards, in the position of use of the element 50. The seed or seeds 51 are then disposed at the bottom of the housing 53, as seen in particular in Figure 4a. In the embodiment shown by way of example, the body 51 of the element 50 comprises five housings 53 aligned in the direction Y, and regularly spaced, this not being limiting.
    In order to ensure the maintenance of the seeds 51 on the body 52 of the element 50, in the position which has been predetermined to ensure efficient germination and growth, it is planned to provide a layer in the reception area of the seeds 51 maintaining the seed (s).
    Thereafter, the description will be made in the case where the zone for receiving the seeds is formed by the housing 53.
    As illustrated in FIGS. 3 and 4a, one or more seeds 51 are placed at the bottom of each housing 53. Then, a holding composition 60 is deposited on the seed or seeds 51.
    According to the invention, the holding composition 60 comprises a mineral powder suspended in water.
    For example, this mineral powder can be clay, preferably relatively fine, for example having a particle size between 30 and 60 μm, of the order of 45 μm. The holding composition 60 can comprise from 15 to 25% by mass of clay, for example of the order of 20% by mass. Other mineral powders can be used, such as for example talc or pumice. These choices are advantageous in that they provide natural solutions, as opposed to food glue.
    The holding composition 60 may further comprise a fungicide and / or a germination promoting agent.
    The holding composition 60 is deposited in an appropriate amount to allow satisfactory maintenance of the seeds 51. Concretely, one or more drops 61 of the holding composition 60 can be deposited, for example to substantially fill the housing 53, as illustrated in Figure 4b.
    The deposit can be made manually. As a variant, it can be carried out via a mechanical, electrical and / or hydraulic system, by means of a pump 40 and pipes 41, as illustrated in FIG. 5.
    In order to guarantee the good homogeneity of the holding composition 60 which will be deposited on the seeds 51, this holding composition 60 is preferably stirred continuously before its deposition, thus keeping the powdered clay in suspension. Obtaining a homogeneous liquid is all the easier when the clay used is a very fine powder. In FIG. 5, by way of example, the holding composition 60 intended to be sucked in by the pump 40 is placed in a container 42 on a magnetic stirring system 43. Other solutions are however possible (mechanical mixing, etc.).
    The water contained in the holding composition 60 deposited in the housing 53 will then be absorbed by the body 52, typically by the substrate, and can also partly be evaporated, as seen in FIG. 4c, then in FIG. 4d.
    Tests have shown that the period during which the mineral powder remains very wet is approximately 1 minute (this corresponds to the time of absorption of water by the substrate). This time is relatively short, compared to the solution consisting in depositing food glue where the humidity period can be close to 10 minutes. The method according to the invention is thus more advantageous, since the seed being less exposed to moisture before the use of the element 50, it is not altered and has an increased germination capacity after conservation. Then comes the evaporative drying phase.
    The dried mineral powder - here clay - is then deposited on the surface of the body 52 to form a retaining layer 62, visible in FIG. 4d. The retaining layer 62, which thus comprises the dried mineral powder, covers and includes the seed (s) 51 in the receiving zone, formed here of the housing 53. The retaining layer 62 can also cover at least in part the internal surface 54 housing 53.
    As can be seen by comparing FIGS. 4b and 4d, the retaining layer 62 has a much smaller volume than the drop or drops of retaining composition which have been deposited in the housing 53. In particular, the retaining layer 62, which is therefore dry, does not fill the entire housing 53. For example, the thickness of the retaining layer 62 can be between 0.2 and 2 mm depending on the clay concentration of the retaining composition 60, and the quantity of maintenance composition 60 deposited.
    The element 50 thus produced, containing the seeds 51 fixed securely to the body 50 thanks to the retaining layer 62, can be transported and stored without risk for the seeds 51, until use by the consumer.
    Concretely, the user only has to place an element 50 in a container 20. By capillary action, the substrate will rehydrate, and bring moisture to the retaining layer 62 and to the seeds 51. Compared to solutions of the prior art, and in particular the use of food glue, the use of a mineral powder is advantageous because it allows, in operation, to form a more humid environment for the seed 51, which is conducive to His development.
    Another important advantage of the invention resides in the fact that the holding composition 60 can easily be adapted to the different types of seeds 51, with a view to ensuring appropriate maintenance on the body 50 and satisfactory protection.
    Thus, on the one hand, the holding composition 60 can be adapted to the size of the seeds 51. In fact, there are seeds of small dimensions, generally spherical or of very rounded shape, which can be easily fixed. But there are also larger seeds, such as tomato and pepper seeds (fairly flat disc-shaped) or chive seeds (striped crescent moon), as well as coated seeds, which are heavy and overall spherical with a diameter varying from 2 to 5 mm. These larger seeds are very difficult to maintain on the body with the solutions of the prior art. The invention on the contrary makes it possible to ensure effective maintenance of these seeds, thanks to the use of dried mineral powder. In addition, by increasing the concentration of mineral powder in the maintenance composition (up to about 30% for example), a thicker dried powder deposit is obtained, and this thicker maintenance layer allows better maintenance of large seeds. .
    On the other hand, the holding composition 60 can be adapted to the nature of the seeds, of the substrate and / or to the surrounding conditions, in particular, by the presence of additives chosen to improve the germination time, protect against diseases or mold, etc.
    Thus, the invention brings a decisive improvement to the prior art, by providing an element which can be transported, stored and used without risk of loss or deterioration of the seeds.
    It goes without saying that the invention is not limited to the embodiment described above by way of example but that it includes all the technical equivalents and variants of the means described as well as their combinations.
    权利要求:
    Claims (13)
    [1" id="c-fr-0001]
    1. Element intended to be placed in a container (20) for the cultivation of at least one plant, the element (50) comprising:
    a substantially solid body (52) comprising a substrate capable of allowing said plant to develop;
    at least one seed (51) of said plant disposed on the body (52) in at least one seed receiving area (53);
    a retaining layer (62) of the seed (s) (51) in said receiving area (53);
    characterized in that said retaining layer (62) comprises a dried mineral powder.
    [2" id="c-fr-0002]
    2. Element according to claim 1, characterized in that the retaining layer (62) covers and includes the seed or seeds (51) in the reception area (53).
    [3" id="c-fr-0003]
    3. Element according to claim 1 or 2, characterized in that the receiving zone (53) comprises a hollow housing formed in the body (52) and open upwards, in the position of use of the element (50 ), the seed or seeds (51) being arranged at the bottom of the housing (53).
    [4" id="c-fr-0004]
    4. Element according to claim 3, characterized in that the retaining layer (62) covers at least partially the interior surface of the housing (53).
    [5" id="c-fr-0005]
    5. Element according to one of claims 1 to 4, characterized in that the mineral powder is a natural mineral powder which can for example contain silicates.
    [6" id="c-fr-0006]
    6. Element according to one of claims 1 to 5, characterized in that the mineral powder is chosen from the group comprising: clay, talc, pumice.
    [7" id="c-fr-0007]
    7. Element according to one of claims 1 to 5, characterized in that the mineral powder has a particle size between 5 and 200 pm, preferably between 20 and 100 pm, better still between 30 and 60 pm.
    [8" id="c-fr-0008]
    8. System for growing at least one plant, comprising:
    a tank (1) comprising a bottom (2), a peripheral wall (3) and an upper opening (4), said tank (4) being intended to contain water;
    a tray (10) disposed at the upper opening (4) of the tray (1), comprising at least one window (11);
    at least one mast (6) supporting at least one light source (7); at least one element (50) according to one of claims 1 to 7; at least one container (20) comprising a bottom (22) and a peripheral wall (23), the container (20) receiving said element (50) and being placed in the tank (1) and received in a window (11) of the tray (10).
    [9" id="c-fr-0009]
    9. Method for producing an element (50) intended to be placed in a container (20) for the cultivation of at least one plant, the element (50) comprising a body (52) substantially solid comprising a suitable substrate allowing said plant to grow, and at least one seed (51) of said plant disposed on the body (52) in a seed receiving area (53), the method comprising depositing a maintenance composition ( 60) on the seed (s) (51) previously disposed on the body (52), in order to maintain the seed (s) (51) in said receiving zone (53), characterized in that the method comprises depositing a maintenance composition (60) which comprises a mineral powder suspended in water.
    [10" id="c-fr-0010]
    10. Method according to claim 9, characterized in that the maintenance composition (60) comprises from 15 to 25% by mass, for example of the order of 20% by mass, of clay having a particle size between 30 and 60 pm, for example of the order of 45 pm.
    [11" id="c-fr-0011]
    11. Method according to claim 9 or 10, characterized in that it comprises the stirring of the maintenance composition (60) before its deposition on the seed (s) (51).
    [12" id="c-fr-0012]
    12. Method according to one of claims 9 to 11, characterized in that the maintenance composition (60) further comprises at least one compound chosen from: a fungicide, a germination promoting agent.
    [13" id="c-fr-0013]
    13. Method according to one of claims 9 to 12, the receiving area (53) comprising a hollow housing formed in the body (52) and open upwards, in the position of use of the element (50) , the seed (s) (51) being arranged at the bottom of the housing (53), characterized in that a composition is deposited
    5 holding (60) in sufficient quantity to substantially fill the housing (53).
    2/2
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    同族专利:
    公开号 | 公开日
    US20200053969A1|2020-02-20|
    CN110300515A|2019-10-01|
    ES2817443T3|2021-04-07|
    KR20190116324A|2019-10-14|
    SG11201907483RA|2019-09-27|
    CA3051956A1|2018-08-23|
    EP3582601B1|2020-08-05|
    JP2020507334A|2020-03-12|
    EP3582601A1|2019-12-25|
    DK3582601T3|2020-09-07|
    WO2018150127A1|2018-08-23|
    FR3062985B1|2019-10-11|
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    法律状态:
    2018-01-19| PLFP| Fee payment|Year of fee payment: 2 |
    2018-08-24| PLSC| Publication of the preliminary search report|Effective date: 20180824 |
    2019-02-14| PLFP| Fee payment|Year of fee payment: 3 |
    2020-01-16| PLFP| Fee payment|Year of fee payment: 4 |
    2020-05-01| CA| Change of address|Effective date: 20200325 |
    2021-02-26| PLFP| Fee payment|Year of fee payment: 5 |
    2022-02-15| PLFP| Fee payment|Year of fee payment: 6 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1751274|2017-02-17|
    FR1751274A|FR3062985B1|2017-02-17|2017-02-17|ELEMENT FOR CULTIVATION OF AT LEAST ONE PLANT AND METHOD OF MAKING THE ELEMENT|FR1751274A| FR3062985B1|2017-02-17|2017-02-17|ELEMENT FOR CULTIVATION OF AT LEAST ONE PLANT AND METHOD OF MAKING THE ELEMENT|
    CN201880012317.3A| CN110300515A|2017-02-17|2018-02-09|Method for cultivating the element of at least one plant and for manufacturing the element|
    CA3051956A| CA3051956A1|2017-02-17|2018-02-09|Element for cultivating at least one plant and method for producing the element|
    KR1020197024371A| KR20190116324A|2017-02-17|2018-02-09|Urea for cultivating at least one plant and a method for producing the urea|
    DK18707102.2T| DK3582601T3|2017-02-17|2018-02-09|ELEMENT FOR GROWING AT LEAST ONE PLANT AND METHOD OF PREPARING THE ELEMENT|
    ES18707102T| ES2817443T3|2017-02-17|2018-02-09|Element for the cultivation of at least one plant and procedure for making the element|
    EP18707102.2A| EP3582601B1|2017-02-17|2018-02-09|Element for cultivating at least one plant and method for producing the element|
    SG11201907483RA| SG11201907483RA|2017-02-17|2018-02-09|Element for cultivating at least one plant and method for producing the element|
    JP2019544660A| JP2020507334A|2017-02-17|2018-02-09|Element for growing at least one plant and method for making the element|
    PCT/FR2018/050318| WO2018150127A1|2017-02-17|2018-02-09|Element for cultivating at least one plant and method for producing the element|
    US16/486,707| US20200053969A1|2017-02-17|2018-02-09|Element for cultivating at least one plant and method for producing the element|
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