BE1026427B1 - Cultivation line for growing plants and method for moving plant troughs along a cultivation line - Google Patents

Abstract

In a first aspect, the present invention relates to a cultivation line for growing plants, comprising plant gutters provided with recesses suitable for receiving cultivation pots provided with seeds or plants, a cultivation frame and a displacement frame, wherein the plant gutters rest transversely to the cultivation frame, and wherein the displacement frame is slidably mounted on the cultivation frame and is provided with drive pins which engage on the plant gutters. A second aspect relates to a method for the movement and positioning of plant troughs provided with recesses suitable for receiving cultivation pots provided with seeds or plants in a cultivation system, wherein the plant troughs rest transversely on a cultivation frame and are moved in the longitudinal direction of the plant during cultivation. cultivation frame, and wherein the displacement takes place with the aid of a movable displacement frame which is slidably mounted on the cultivation frame and is provided with drive pins which engage on the plant gutters.

Description

GROWING LINE FOR GROWING PLANTS AND METHOD FOR MOVING PLANTS GOTS ALONG A GROWING LINE

TECHNICAL DOMAIN

The invention relates to a device and a method for growing plants. More specifically, the invention relates to a cultivation line with plant troughs and a method for moving plant troughs along a cultivation line.

BACKGROUND ART

All kinds of living plants are nowadays grown on an industrial scale. Industrial horticultural installations aim at scaling up to better control the cultivation conditions and to increase the output. For this purpose, plants are placed ever closer to each other during cultivation, in order to optimally utilize the available area.

Often different plants are grouped in plant pots and / or planters, these pots or trays requiring individual manipulations during cultivation. This implies that a large part of the available area is taken up by so-called logistics space, for example the space for passage of people and rolling stock. As plants grow from seed, seedling to mature plant, they also need more and more space to grow freely. To this end, seedlings can be positioned more broadly than strictly necessary, with a view to meeting the spatial requirements of the future, mature plant. On the other hand, the plant pots and / or planters can be moved manually depending on the stage of growth in which the plant is visible. Both methods imply both an increase in required space and manual operations. Moreover, large areas are difficult to oversee, any problems with plants are not always noticed quickly enough and administration and logistics are unnecessarily complicated.

US 2004/0163308 A1 describes a cultivation line in which plant pots and / or planters with plants are continuously placed on a conveyor belt at the start of the cultivation, as seed or seedling, and where they leave the treadmill when they

BE2018 / 5453 are fully grown or when they have reached the intended growth stage. Such a system allows the planters to be brought closer together, whereby the need for logistics space is minimized. However, once the trays are placed on the treadmill, their mutual distance is fixed, so that the growth stage in which they are located is not taken into account.

Furthermore, EP 1 128 718 B1 describes a cultivation line in which different plant pots and / or plant trays are placed on a support structure, wherein a positioning system gradually places the trays further apart during cultivation. While this system meets the need for a variable distance between plants, it is not possible to implement this system in a continuous cultivation system since all plants on the cultivation line are at the same growth stage simultaneously, or per batch. Utilization of the available space is therefore still suboptimal.

There is a need for a cultivation line that allows the continuous cultivation of plants, from seed or seedling to the intended growth stage, where space is optimally used, and taking into account the spatial requirements of specific plant species and / or the growth stages in which these plants located.

The present invention aims at least to find a solution for some of the above problems or disadvantages.

SUMMARY OF THE INVENTION

For this purpose the invention provides a cultivation line according to claim 1. The cultivation line comprises plant troughs provided with recesses suitable for receiving cultivation pots which are provided with seeds or plants, a cultivation frame and a displacement frame, wherein the plant troughs rest transversely to the cultivation frame. The displacement frame is hereby slidably mounted on the cultivation frame and is provided with drive pins which engage on the plant gutters.

This cultivation line is particularly suitable for the continuous cultivation of plants in a controlled manner, with plants sorted by growth stage on the cultivation frame. Seedlings can be used on one end of the growing line and can be moved to the other end during growth. This has the advantage that cultivation on the cultivation frame is controlled and that identification and identification of any problems with seedlings or plants,

BE2018 / 5453 for example a growth retardation or nutrient deficiency, is simplified since each growth stage corresponds to a position on the cultivation line. Moreover, the advantage of a displacement frame with drive pins is that the mutual distance between the different plant troughs does not have to be the same over the entire cultivation line.

Preferred forms of the cultivation line are shown in claims 2 to 6.

A specific preferred form relates to the cultivation line according to claim 1, wherein the displacement frame is provided with attachment points suitable for the attachment of the drive pins to the displacement frame. These attachment points allow the position of the drive pins to be freely selected as a function of a number of factors, including the plant species to be grown, the stage of growth in which the plant is located and / or various environmental factors.

A second aspect of the present invention relates to a method according to claim 7. The method is suitable for the displacement and positioning of plant troughs provided with recesses suitable for receiving cultivation pots, which are provided with seeds or plants, over a cultivation line in a cultivation system. The plant troughs here rest transversely of a cultivation frame and are moved during the cultivation in the longitudinal direction of the cultivation frame. This displacement takes place with the aid of a movable displacement frame which is slidably mounted on the cultivation frame and is provided with drive pins which engage on the plant troughs.

This method has the advantage that the entire growing period can easily be monitored. During the growth, the plants systematically shift from the start of the cultivation line to the end of the cultivation line. Each position on the cultivation line therefore corresponds to a certain stage of growth of the plant.

Preferred forms of the method are described in subclaims 8 to 14. In a preferred form according to claim 14, the cultivation line according to the first aspect of the present invention is used in this method.

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DESCRIPTION OF THE FIGURES

Figure 1 shows a top view of a preferred form of the cultivation line according to the present invention.

Figures 2a to e.m. 2d illustrate a movement cycle of the displacement frame according to a preferred form of the method according to the present invention.

Figure 3 shows a side view of a preferred form of the cultivation line.

Figures 3a and 3b show a detailed view of a drive pin according to a preferred form of the cultivation line, in folded-out and folded-in condition, respectively.

DETAILED DESCRIPTION

In a first aspect, the present invention relates to a cultivation line for growing plants. The cultivation line comprises plant troughs provided with recesses suitable for receiving cultivation pots which are provided with seed or plants, a cultivation frame and a displacement frame, the plant troughs resting transversely on the cultivation frame. The displacement frame is hereby slidably mounted on the cultivation frame and is provided with drive pins which engage on the plant gutters.

Unless defined otherwise, all terms used in the description of the invention, including technical and scientific terms, have the meaning as generally understood by those skilled in the art of the invention. For a better assessment of the description of the invention, the following terms are explicitly explained.

A, the and the reference in this document to both the singular and the plural unless the context clearly presupposes otherwise. For example, a segment means one or more than one segment.

The terms include, comprising, consisting of, provided with, containing, containing, contents, including its synonyms and its inclusive or open terms indicating the presence of what follows, and which

BE2018 / 5453 does not exclude or prevent the presence of other components, features, elements, members, steps, known from or described in the prior art.

The citation of numerical intervals by the end points includes all integers, fractions and / or real numbers between the end points, including these end points.

The term plant refers to an organism belonging to the plant kingdom Viridiplantae. Plants include herbaceous species, including indoor plants, garden plants, herbs, tub plants, etc. Woody plants such as shrubs and trees are also part of the plant kingdom, but are less relevant to the scope of the present invention. The term plant also refers to plant organisms at every possible stage of life. Life stages of plants include seed or seeds, seedling or seedling, juvenile stages, virginile stages, adult stages, senile stages etc.

The term cultivation line refers to a device that is suitable for growing or growing crops or plants. The cultivation line can consist of one or more infrastructural components which supports or simplifies the cultivation or cultivation of crops or plants. The cultivation line can consist of separate parts, but it can also form one coherent whole. The cultivation line may form part of a cultivation system that may be in the open air or may be housed in a building.

In the following, the terms cultivation system, horticultural installation and horticulture are broadly interpreted. They refer to various forms of commercial or non-commercial cultivation of vegetables, fruit, mushrooms, flowers, plants, herbs, trees, bulbs and / or seeds, both covered and in the open air. By extension, these terms also indicate less common forms of agriculture and horticulture, for example vertical farming and / or city farming.

A plant pot or cultivation pot is a pot in which seeds, seedlings or plants are accommodated. They comprise a soil composition and have one or more openings to allow sufficient drainage of the soil. The growing pot is large enough to allow the seedlings to grow into full-grown

BE2018 / 5453 plants and root development to take place adequately. Repotting seedling or plant during cultivation is therefore not necessary.

A plant gutter, possibly also referred to as the plant container or plant container, is a structure in which one or more plant pots can be accommodated. The plant gutter simplifies the logistics of individual pots by grouping them. The plant gutter can be an open or closed structure, but is preferably open so that excess water can flow away freely.

The term cultivation frame indicates a frame or frame on which or in which the cultivation of plants takes place. It concerns a rigid, physical carrier structure or delimitation. The displacement frame, in the light of the present invention, is a frame or frame that is movable with respect to the cultivation frame. The displacement frame makes it possible to move plant troughs, cultivation pots and / or individual plants relative to the cultivation frame, the cultivation line or the cultivation system.

In a first aspect, the present invention relates to a cultivation line for growing plants. The cultivation line comprises plant troughs provided with recesses suitable for receiving cultivation pots which are provided with seed or plants, a cultivation frame and a displacement frame, the plant troughs resting transversely on the cultivation frame. The displacement frame is hereby slidably mounted on the cultivation frame and is provided with drive pins which engage on the plant gutters.

This cultivation line is particularly suitable for the continuous cultivation of plants in a controlled manner, with plants sorted by growth stage on the cultivation frame. Seedlings can be used on one end of the growing line and can be moved to the other end during growth. This has the advantage that cultivation on the cultivation frame is controlled and that identification and identification of any problems with seedlings or plants, for example a growth retardation or nutrient deficiency, is simplified since each growth stage corresponds to a position on the cultivation line.

Moreover, the advantage of a displacement frame with drive pins is that the mutual distance between the different plant troughs does not have to be the same over the entire cultivation line. For example, seedlings only require a small mutual distance between the plant gutters, while plants gradually increase in size

BE2018 / 5453 accordingly prefer a greater distance between the plant gutters. A cultivation line with drive pins allows such variation in these distances, making the cultivation frame suitable for the full duration of the cultivation and for different plant species.

Such a cultivation line also optimizes the use of the available space in, for example, a greenhouse. In conventional systems, plant troughs or planters must be individually placed, moved and / or removed. Sufficient space must therefore be kept free for the accessibility of these plant gutters or planters by people and / or rolling stock. The present invention limits the required, accessible space to only one location at the beginning and one location at the end of the cultivation line. By placing all seedlings and plants on a cultivation line with a displacement frame, their position can after all be manipulated without having to reach the plant troughs individually. This eliminates the need for walking and / or driving corridors at a regular distance between the various plant gutters. This results in a large saving of space.

Preferably, the drive pins are rotatably mounted on the displacement frame through an angle of rotation that is included between 60 and 120 °. This configuration allows only a forward shift of the plant troughs, i.e. from the starting point of the cultivation line to the end point of the cultivation line, regardless of the direction in which the moving frame moves. Specifically, as a result of this configuration, the plant gutters are only engaged by the drive pins in the forward direction of movement. On the other hand, if the displacement frame moves in the opposite sense, the drive pins do not engage the plant troughs, so that they remain stationary on the cultivation frame. Consequently, a succession of several forward and backward movements of the displacement frame allows plant troughs to gradually slide forward and are thereby engaged in each case by drive pins located a position farther on the displacement frame. This has the advantage that the displacement frame only has to shift over small distances. More preferably, the angle of rotation of the drive pins is included between 80 and 100 °.

The rotation angle of the drive pins is preferably limited between a position perpendicular to the plane of the displacement frame and a position parallel to the plane of the displacement frame. In the right-angled, folded-out state, the drive pins engage optimally with the plant gutters in the event of a forward shift. In

BE2018 / 5453 in their parallel, collapsed condition, the drive pins move underneath the plant troughs with the plant troughs resting stationary on the cultivation frame.

A further or different embodiment comprises the cultivation line in which the displacement frame is provided with attachment points suitable for the attachment of the drive pins to the displacement frame. These attachment points allow the position of the drive pins to be freely selected as a function of a number of factors, including the plant species to be grown, the stage of growth in which the plant is located and / or various environmental factors. Thus, seedlings normally require less space than mature plants, whereby drive pins at the start of the growing line can be placed closer to each other than drive pins at the end of the growing line. As plant gutters move through the different positions on the cultivation line, the distance between the plant gutters will also change as a result of these variable positions of the drive pins. In most cases, an increasing distance between plant gutters during cultivation is envisaged.

According to an embodiment of the present invention, the cultivation line is provided with a pneumatic, hydraulic and / or electrical drive, which is coupled to the cultivation frame and which provides for the displacement of the displacement frame relative to the cultivation frame. The presence of a pneumatic, hydraulic and / or electrical drive eliminates the need for manual, physical handling of the displacement frame manipulation. The drive can be controlled manually, whereby the drive is switched on or off, the speed is controlled and the sense of movement of the displacement frame is selected. In a preferred form, the drive is programmable, the drive being controlled so that the displacement frame undergoes controlled cycles of successive forward and backward shifts. Preferably, the plant troughs shift one drive pin per cycle, so that overall a forward displacement of the plant troughs is achieved. The drive source is preferably a hydraulic drive source.

An embodiment of the cultivation line specifies the design of the plant troughs such that they are provided with a gripping edge, an inclined edge and a flat edge. This design is particularly advantageous with regard to interaction with the drive pins. In the case of a forward movement of the displacement frame, the drive pins, when unfolded, grasp the engagement edge of the

BE2018 / 5453 plant gutters, whereby the gutters are pushed in the direction of movement. As soon as the displacement frame moves backwards, the engagement pins rotate under pressure from the inclined edge of the plant troughs to their collapsed condition, whereafter the collapsed drive pins move under the flat edge.

The cultivation line according to a further or other embodiment is provided with one or more water supply pipes, suitable for wetting the cultivation pots on the cultivation line, and one or more water discharge pipes, suitable for draining off excess water from the cultivation pots and / or plant troughs. These facilities considerably simplify logistics with regard to water management as no manual watering is required, nor are manual steps necessary for the drainage of excess water. The presence of such a system makes it possible to largely automate watering and drainage and can also be adjusted to the plant species in question and / or the stage of growth in which it is located.

A second aspect of the present invention relates to a method for moving and positioning plant troughs provided with recesses suitable for receiving cultivation pots, which are provided with seeds or plants, over a cultivation line in a cultivation system. The plant troughs here rest transversely of a cultivation frame and are moved during the cultivation in the longitudinal direction of the cultivation frame. This displacement takes place with the aid of a movable displacement frame which is slidably mounted on the cultivation frame and is provided with drive pins which engage on the plant troughs.

This method has the advantage that the entire growing period can easily be monitored. During the growth, the plants systematically shift from the start of the cultivation line to the end of the cultivation line. Each position on the cultivation line therefore corresponds to a certain stage of growth of the plant. This simplifies the visual follow-up of the cultivation and allows, for example, to quickly identify plants that are struggling with a growth retardation or a certain nutrient deficiency.

In addition, the space of, for example, a greenhouse, can be optimally used in this way, since no walkways or rowways have to be provided between the various plant gutters. After all, in conventional systems, plant troughs or planters must be individually placed and / or removed. Sufficient space must therefore be reserved for accessibility

BE2018 / 5453 of these plant gutters or planters by persons and / or rolling stock. The present invention limits the required, accessible space to only one location at the beginning and one location at the end of the cultivation line. This results in a large saving of space.

The method preferably comprises the steps of (1) placing the plant troughs filled with seeds or plants at a starting point on the cultivation line, (2) subsequently moving the plant troughs during the cultivation period to an end point on the cultivation line via the displacement frame and (3) the remove plant gutters with plants that are at the intended growth stage from the growing line. This has the advantage that only two physical, manual operations are required during the entire duration of plant cultivation, which considerably simplifies logistics regarding plant cultivation. This method also has some advantages in administrative and organizational terms. For example, it is not necessary to keep track of the growing stage for each planting gutter or planter. When a plant gutter reaches the end of the growing line, the plants in this gutter have by definition reached the intended growth stage and are ready to leave the growing system.

A further or different embodiment comprises the method in which the plant troughs move from the starting point to the end point of the cultivation line, by means of a sequence of forward and back shifts of the displacement frame. As a result, the displacement of the displacement frame relative to the cultivation frame is limited in distance, which somewhat restricts maintenance of the bearing parts of the cultivation line. The total displacement is moreover divided into smaller displacements that are easy to follow, with moments of standstill between them. These moments of standstill make it possible to supplement new plant troughs on the cultivation line and to remove plant troughs that have reached the end of the cultivation line from the cultivation line. Moreover, these moments of standstill are suitable for visual inspection of the seedlings or plates, without the cultivation line having to be stopped for this. The periodic standstill of the cultivation line also allows a certain plant gutter where problems should occur, to be easily manipulated without affecting the rest of the cultivation line.

According to an embodiment the plant troughs are pushed forward during the displacement of the displacement frame by the drive pins in a direction of movement from the starting point to the end point of the cultivation line. The distance

BE2018 / 5453 over which the displacement frame moves is by definition not smaller than the distance between the various drive pins. As a result, the plant gutter shifts one position on the cultivation line per movement cycle.

During the displacement of the displacement frame, in a direction from the end point to the starting point of the cultivation line, the drive pins no longer engage the plant troughs so that the plant troughs rest stationarily on the cultivation frame. Notwithstanding the movement frame being in motion, the plant troughs are in a standstill, so that new plant troughs can easily be placed on the cultivation line while plant troughs with plants at the intended growth stage can easily be removed. The moment at which the plant gutters remain stationary is also suitable for visual inspection.

Each forward and back shift can therefore be seen as a cycle in which the cultivation troughs physically move one position ahead of the cultivation frame. Each growing gutter shifts one drive pin per cycle. A succession of cycles provides for the systematic movement of a cultivation trough from the beginning of the cultivation line to the end of the cultivation line.

A further or different embodiment of the method comprises determining the position of the drive pins on the displacement frame as a function of the plant species and / or the growth stage of the plant. Seedlings normally require less space than mature plants, so that the distance between the cultivation troughs at the start of the cultivation must be less than at the end of the cultivation line. As plant troughs pass through the different positions on the cultivation line, the mutual distance between the plant troughs preferably increases. The choice of a variable distance between plant troughs optimizes the use of space since more plant troughs can be placed on the same surface at the start of cultivation than at the end of the cultivation line. Only the space that is actually needed is used in this way.

A further or different embodiment comprises the method in which the forward and backward displacement of the displacement frame is effected by means of an electrical, hydraulic and / or pneumatic drive source. The presence of a pneumatic, hydraulic and / or electrical drive eliminates the need for manual, physical handling of the displacement frame manipulation. The drive can be controlled manually, whereby the drive is switched on or off, the speed is controlled, and

BE2018 / 5453 where the sense of movement of the displacement frame is selected. In a preferred form, the drive is programmable, the drive being controlled so that the displacement frame undergoes controlled cycles of successive forward and backward shifts. Preferably, the plant troughs shift one drive pin per cycle, so that overall a forward displacement of the plant troughs is achieved.

The method is carried out according to an embodiment on a cultivation line according to the first aspect of the present invention.

In the following, the invention is described a.d.h.v. non-limiting figures illustrating the invention, and which are not intended or may be interpreted to limit the scope of the invention.

DETAILED FIGURE DESCRIPTION

The top view of the device shown in FIG. The preferred form of the cultivation line shown in Fig. 1 consists of a cultivation frame 2 on which plant troughs 1 rest. The plant gutters are provided with recesses for accommodating cultivation pots 4 and are preferably open structures so that excess water can easily drain out of the plant gutters. The plant gutters are able to move in a direction of movement 6, from a starting point a to an end point b, under the influence of the displacement of a displacement frame 3. This displacement frame is slidably mounted on the cultivation frame and is driven by a pneumatic, hydraulic or electrical drive 14 eliminating the need for manual operations. The plant troughs move from start point to end point during cultivation, with the accommodated plants developing from seed i or seedling ii, through intermediate stages iii-v, until they have reached the intended growth stage vi and leave the cultivation line. At the start and end points, the manual operation of (1) placing new plant troughs on the cultivation line and (2) removing plant troughs with plants that have reached the intended growth stage, respectively, remains necessary. The cultivation line comprises drive pins 5 which are rotatably mounted on the displacement frame and which engage on the plant troughs. The cultivation frame rests on a number of legs 7, whereby the cultivation frame can be freely placed in a cultivation system, whether covered or in the open air. FIG. 1 shows the space-saving effect of such a cultivation line, since there is no need for accessible corridors for people and / or rolling equipment between the various plant gutters.

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The specific operation of the cultivation line is illustrated in FIG. 2a to e.m. 2d. Herein a movement cycle of the displacement frame 3 according to a preferred form of the method is shown, wherein the interaction between the plant troughs 1 and the drive pins 5 becomes clear. In FIG. 2a shows how the plant troughs rest on the cultivation frame 2. The plant troughs accommodate a number of cultivation pots 4 in which there are plants in different growth stages i-vi. A first step in the movement cycle consists of shifting the displacement frame 3 in the direction from the starting point a to the ending point b. Here, the drive pins are in the folded-out state, perpendicular to the surface of the cultivation frame, whereby they engage the plant troughs and move them in the direction of the displacement 6a. In FIG. 2a, the state is visible before the shift, while FIG. 2b shows the state after the shift. It is clear from the figures that the planting troughs (1), (2) and (3) are pushed forward by the drive pins B, C and D. FIG. 2c then illustrates the start of a backslide 6b of the displacement frame. As a result of the rotational ability of the drive pins during the back shift, the drive pins are collapsed and the plant troughs rest stationarily on the growing frame while the moving frame moves back toward the end point b to the starting point a. in the situation as shown in FIG. 2d. The displacement frame has returned to its starting position and the plant troughs (1), (2) and (3) are now engaged by the drive pins A, B and C which are a position further away on the displacement frame. The complete movement cycle as shown in Figures 2a through. 2d, the plant gutters have moved one position in the direction from the starting point to the end point. Such a movement cycle has the advantage that the displacement of the displacement frame relative to the cultivation frame is limited in distance and the need for maintenance of bearing parts is therefore minimal. Moreover, the location of the drive pins on the displacement frame is freely selectable thanks to the presence of attachment points 10. This allows the distance between the different drive pins and therefore also the distance between the planting troughs to be chosen as a function of the plant species, the growth stage at which the plant is located located and / or various environmental factors. In an exemplary case, the distance between drive pins gradually increases from the starting point a to the end point b. After all, during the cultivation the plants develop from seed or seedling to fully grown plant, whereby the required space is normally increased.

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The representation of the side view of an embodiment of the cultivation line in FIG. 3, and in particular the detail views in FIG. 3a and 3b illustrate the interaction between the plant gutter 1 and the drive pin 5. In FIG. 3a, the drive pin is shown in the folded-out state, one drive pin flank 8 engaging the engagement edge 11 of the plant gutter. It is this interaction that is responsible for the joint displacement of the displacement frame 3 and the plant gutter relative to the cultivation frame 2. It is also visible how the drive pin can rotate around an axis 9 and how the position of the drive pin can be freely selected on one of the attachment points 10. As a result, the distance between different drive pins can be chosen as a function of the plant species, the growth stage of the plant and / or various environmental factors. In FIG. 3b shows how during the back shift of the displacement frame the drive pin rotates around its axis under the influence of the pressure exerted by the oblique side 12 of the plant trough. The drive pin then moves under the cultivation gutter under the influence of the flat side 13.

Claims (14)

CONCLUSIONS A cultivation line for growing plants, comprising plant gutters (1) provided with recesses suitable for receiving cultivation pots (4) provided with seeds or plants (i-vi), a cultivation frame (2) and a displacement frame (3), wherein the plant troughs rest transversely to the cultivation frame, wherein the displacement frame is slidably mounted on the cultivation frame and is provided with drive pins (5) which engage on the plant troughs, characterized in that the displacement frame (3) is provided with attachment points (10) suitable for the attachment of the drive pins (5) to the displacement frame. Cultivation line according to claim 1, characterized in that the drive pins (5) are rotatably mounted on the displacement frame (3) over an angle of rotation that is included between 60 and 120 °, preferably between 80 and 100 °. Cultivation line according to claim 2, wherein the angle of rotation is limited between a position perpendicular to the plane of the displacement frame (3) and a position parallel to the plane of the displacement frame. Cultivation line according to one of the preceding claims 1-3, characterized in that the cultivation line is provided with a pneumatic, hydraulic and / or electric drive (14) coupled to the cultivation frame (2), which provides for the displacement of the displacement frame (3). 5. Cultivation line according to one of the preceding claims 1-4, characterized in that the plant troughs (1) are provided with an engaging edge (11), an inclined edge (12) and a flat edge (13). 6. Cultivation line as claimed in any of the foregoing claims 1-5, wherein the cultivation line is provided with one or more water supply pipes, suitable for moistening the cultivation pots (4) on the cultivation line, and one or more water discharge pipes, suitable for draining excess water from the cultivation pots and / or plant gutters. 7. Method for moving and positioning plant troughs (1) provided with recesses suitable for receiving cultivation pots (4) provided with seeds or plants in a cultivation system, wherein the plant troughs rest transversely to a cultivation frame (2) and are moved during cultivation in the longitudinal direction of the cultivation frame, characterized in that the displacement takes place with the aid of a movable displacement frame (3) which is slidably mounted on the cultivation frame and is provided with drive pins (5) which engage on the plant troughs. BE2018 / 5453 A method according to claim 7, wherein plant gutters (1) filled with seeds or plants (i) are placed at a starting point (a) on the cultivation line, the plant gutters then during the cultivation period via the displacement frame to an end point (b) on the cultivation line are moved, after which the plant troughs with plants that have reached the intended growth stage (vi) are removed from the cultivation line. Method according to claim 7 or 8, wherein the plant troughs move from the starting point (a) to the end point (b) of the cultivation line, by means of a sequence of forward (6a) and backslides (6b) of the displacement frame. Method according to claim 9, wherein during the displacement (6a) of the displacement frame (3) the drive pins (5) push the plant troughs (1) in a direction of movement from the starting point (a) of the cultivation line to the end point (b) of the cultivation line. A method according to claim 9 or 10, wherein during the back shift (6b) of the displacement frame (3), in a direction from the end point (b) to the starting point (a) of the cultivation line, the drive pins (5) the plant troughs (5) 1) no longer engage and the plant troughs rest stationary on the cultivation frame (2). A method according to any one of the preceding claims 7-11, wherein the position of the drive pins (5) on the displacement frame (3) is selected as a function of the plant species and / or the growth stage of the plant (i-vi). A method according to any one of the preceding claims 7-12, characterized in that the forward (6a) and backward displacement (6b) of the displacement frame (3) is effected by means of a pneumatic, electrical and / or hydraulic drive source (14) ). A method according to any of claims 7-13, wherein a cultivation line according to any of claims 1-6 is used.