NL1031316C2 - Device for growing crops in growers. - Google Patents

Abstract

The present invention relates to an apparatus (10) for raising plants in propagating containers (2), comprising a propagating space (15) which can be exposed to light, in which propagating space (15) one or more propagating containers containing plants can be placed, wherein the apparatus comprises a storage space (17) which is sealed off from light, as well as means (20) arranged for alternately transporting said one or more propagating containers to the propagating space and to the storage space, respectively. According to the invention, the apparatus is characterised in that the apparatus comprises a storage space which is sealed off from light, as well as means for alternately transporting said one or more propagating containers to the propagating space and to the storage space, respectively.

Description

• 1

Short description: Device for growing crops in growers.

DESCRIPTION

The invention relates to a device for growing crops in culture containers (pots and the like) comprising a light-exposed cultivation space in which one or more culture containers with crops present therein can be arranged.

Such a device is frequently used in horticulture and in particular in greenhouses. In such a device, culture containers (plant pots, cultivation trays, etc.) are arranged in a growing space, in which the planted crops are grown using an irrigation system and assimilation lighting. With the aid of the assimilation lighting a day / night cycle can be set in which the crops arranged in the growing space go through a flowering phase in which the assimilation lighting is switched on as well as a rest phase during which period the assimilation lighting is switched off. The flowering or resting phase is usually 12 hours each. However, during the rest phase, the device can be considered "out of operation."

The object of the invention is to provide a device according to the above introduction, with which a considerable improvement in efficiency can be realized which also increases the yield of the crops to be cultivated.

Thus, the device according to the invention can be continuously operated in that during the flowering phase a group of crops is arranged in the growing space, while another group of crops is arranged in the light-devoid of storage space. The latter are then in their resting phase. After the flowering phase for the crops in the growing space has expired, these are moved by the displacement means to the light-deprived planting space, while at the same time the crops arranged in the planting space are moved to the growing space.

In this way, two groups of crops to be grown can be incorporated continuously in the same device, one group being in the flowering phase and the other simultaneously in the resting phase.

A substantial yield improvement can be realized by successively moving the two groups to the other space (cultivation) or set-up space, which considerably increases the efficiency of the device 1031316.

According to a further embodiment of the device, the installation space is included in the device below the growing space. In this way a device with a limited installation space can be realized, certainly when one considers that the functional surface of a greenhouse is to be utilized as efficiently as possible. With the device according to the invention, a considerable increase in the utilized area can be realized with no or only a slight increase in the structural dimensions.

According to a specific embodiment, the device 10 according to the invention is characterized in that the displacement means comprise two endless carriers placed at some distance from each other and arranged over drivable rollers, with which the one or more grow containers can be displaced.

One or more support elements may be included between the two endless carriers, on which the one or more culture containers to be displaced can be arranged. With this construction the available surface area of the growing space is kept as large as possible, which increases the yield and the efficiency of the device.

In order to prevent blocking or falling over during the displacement of the grow containers 20 with crops to be grown between the grow room and the set-up space in the device, in the functional embodiment of the device according to the invention, each support element is included between the endless carriers such that it continuously orientates itself in a horizontal plane.

More in particular, each support element is thereby rotatably attached to the endless carriers, wherein for a more functional use of the available surface in the growing space as well as to prevent jamming or blocking of the device, each support element is rotatably mounted on a support shaft. the endless carriers is attached.

For a stable arrangement of the grow containers with the crops to be grown, each support element is provided with one or more recesses, with which one or more grow containers can be accommodated. The recesses can be designed as openings.

For a reliable relocation of the culture containers between the culture space and the installation space, the voltage in the endless carriers can be adjusted according to the invention.

The endless carriers can be designed as a chain or as a drive belt.

For the purpose of moving the culture containers between the culture space and the storage space with the aid of the displacement means, the installation space can be opened at least partially. In this way the penetration of light into the storage space is kept to a minimum, namely only during the movement of the culture containers present in the cultivation space to the installation space or the displacement of the culture containers present in the installation space to the cultivation space.

According to a further characteristic of the device, it is furthermore provided for a duct system for circulating air through the set-up spaces.

The invention will be further elucidated with reference to the drawing, which drawings successively show in the following explanation:

Figure 1 shows an overall front view of an embodiment of a device according to the invention;

Figure 2 shows a cut-away front view of the embodiment of the device from Figure 1;

Figure 3 is a side view of the embodiment of Figure 1;

Figure 4 is a top view of the embodiment of Figure 1;

Figure 5 shows another detail view of the embodiment of Figure 1; and Figure 6 shows another detail view of the embodiment from Figure 1.

For a better understanding of the invention, the corresponding parts are indicated in the following figure description with identical reference numerals.

Figure 1 shows an embodiment of a device 30 according to the invention. The device 10 has a spatial construction built up of uprights 11 and beams 12 placed between them. A culture space 15 is formed between the beams 12, in which one or more culture holders 2 (with crops to be grown therein) can be arranged. In the current state of the art, the growing space 15 is designed as a container with raised edges 16/4 in which irrigation water, which is supplied via a irrigation system 18 to the crops to be cultivated, can be collected.

As is clearly shown in Figure 1, in this embodiment a mounting space 17 is included in the device 10, which orientation extends below the cultivation space 15. While the mounting space 17 is completely closed off from light by means of partitions 13 and doors 14a, 14b (the function of which will be explained below), so-called assimilation lamps 19 are arranged above the growing space 15 for illuminating the crops arranged in the growing space 15 in the growers 2.

In the growing space 15, the arranged growing containers with crops go through a so-called flowering phase for a certain period of time, usually 12 hours. After this flowering phase, the crops must go through a resting phase, which is also usually 12 hours. The assimilation lighting 19 is switched off for this purpose.

With the embodiment as shown in figure 1, the device 10 can be operated with an increased efficiency and with a higher harvest yield. To this end, the device 10 is provided with displacement means 20 which are adapted to move the grow containers 2 (and the crops to be grown therein) from the grow space 15 to the set-up space 17 and from the set-up space 17 back to the grow space 15. On in this way the capacity of the device is doubled in that a group of crops is arranged in the growing space 15 and thereby goes through the flowering phase, while at the same time another group of crops is in the resting phase and is accommodated in the light-devoid of set-up space 17.

The displacement means 20 are arranged such that they simultaneously move the group of crops from the growing space 15 to the installation space 17 and simultaneously transfer the group of crops arranged in the growing space 17 to the growing space 15.

The construction of the displacement means is further explained in Figure 2. The displacement means 20 are made up of two endless carriers 21a-21b oriented parallel and at some distance from each other. The cultivation space 15 is situated between the endless carriers 21a-21b. The endless carrier 21a-21b is guided over at least two spaced apart rollers 22a-23a and 22b-23b, at least one of which (here the rollers 22a-22b) is driven by means of a drive unit 25, for example an electrical - whether stepping motor can be driven. To this end, the rollers 22a-22b and 23a-23b, respectively, are placed on a common shaft 24a and 24b, respectively.

Between the two endless carriers 21a-21b are received a plurality of support elements 26 which are attached with their ends 26a-26b to the endless carriers 21a and 21b, respectively. More specifically, each support element is included between the endless carriers 21a-21b such that it always maintains its orientation in the horizontal plane when moving the endless carriers 21a-21b. To this end, each support carrier 26 is pivotally connected around the pivot points 30a-30b to strips 28a-28b which are fixedly connected to the endless carrier 21a-21b. More specifically, each support carrier 26 is by means of the strips 28a-28b.

By a suitable drive of the rollers 22a-22b by the drive unit 25, the support elements 26 will be moved by the endless carriers 21a-21b 15 from the cultivation space 15 to the installation space 17. Likewise, the support elements 26 present in the installation space 17 will be moved upwards for this purpose, the drive unit 25 can be controlled by a timing mechanism which, after the end of each flowering phase, temporarily drives the drive unit 25 for displacing the grow containers arranged on the support elements 26.

For a good safe arrangement of the culture containers on the support elements 26, each support element can be provided with one or more recesses 27 in which the culture containers 2 can be accommodated. These recesses 27 may, for example, be designed as openings into which the grow box (plant pot 25 and the like) 2 falls.

Figure 3 shows a detailed view of the drive means 20. In this embodiment, the endless carrier 21a is designed as a chain that engages a toothing 31 on each endless carrier 22a-22b. For a reliable displacement of the support carriers and the culture containers placed thereon, the tension of the endless carrier 21a can be adjusted by means of a tensioning mechanism 32 which is composed of a plate accommodated in the device and a spindle 34 which engages on the shaft 24b on which the roller 23a-23b is arranged. With the tightening of a screw 35 the spindle 34 can be extended or shortened and accordingly a displacement can be forced on the roller 23a-23b and thus the tension in the endless support 21a can be adjusted.

Figure 4 shows a top view of the growing space 15. The different support carriers 26 with the recesses 5 or openings 27 which are arranged one behind the other between the two (non-shown) endless carriers 21a-21b can be clearly seen.

As also clearly shown in Fig. 1, an irrigation system 18 is included above the cultivation space 15, consisting of two tubes 18b-18c arranged in parallel, which are connected to each other by means of a supply tube 18a, which is connected to a supply supply. Each tube 18b-18c is provided with a large number of outlet openings 18d which are arranged in the lines 18b-18c such that they end up above a recess 27 of the support elements 26. Thus, each grow box provided in a recess 27 has an individual irrigation opening 18d so that irrigation water can be supplied efficiently and with no waste to the grow box (pot and the like) and the crop to be grown therein.

Figure 5 shows yet another detail view of the device according to the invention. The installation space 17 must be devoid of light in order to realize a rest phase for the crops arranged in the installation space 17. For the purpose of moving the crops from the growing space 15 to the set-up space 17, doors 14a-14b (14a'-14b ') are provided on both end sides of the device 10 (see Figure 1) which are closed during the flowering or resting phase but can be opened temporarily by means suitable for this purpose during the movement of the crops between the growing space 15 to the set-up space 17.

These means 36 consist of a drive motor 38 which drives a spindle 39, which spindle 39 is pivotally connected to the door 14a-14b (14a '-14b') by means of a screw connection 41 and a hinge 40. Each door 14a-14b (14a'-14b ') is hingedly connected by means of hinges 37 to the frame of uprights 11 and beams 12, which are closed by partitions 13. Opening and closing of the doors 14a-14b (14a "-14b") takes place in an analogous manner to the drive of the drive motor 25 of the displacement means 20, namely by the time control of the device.

Figure 6 shows yet another embodiment of the device. 7 according to the invention. Herein, the aeration system 40 is disclosed assembled from a suitable conduit system 42 with one or more compressors or fans included therein, for forced air conveying through the spaces 17-17'-17 '' of successive devices 10-10'-10 "5 .

On the one hand, this serves for supplying oxygen to the crops arranged in the installation spaces and, on the other hand, for discharging waste materials that arise during the resting phase in the installation spaces 17-17'-17 ".

Although not shown in the drawings, the cultivation space can be height-adjustable, for example by making the uprights 11 (see figure 1) telescopic. By thus adjusting the height of the cultivation space 15 relative to the substrate 1, the height of the installation space 17 can also be adjusted to the height of the crops to be installed. This offers the possibility of adjusting the device on the one hand to the height of the crops growing over time.

Because a plurality of devices are often arranged parallel to each other in a greenhouse, as shown in Figure 6, it can happen that the level of the cultivation spaces is too high for the operating staff to be able to perform work in the cultivation space in an ergonomic manner. In that case an increase can be made between the adjacent growing spaces in the form of a tray or shelves, which can be attached to the uprights 11 of the frame 10 with suitable coupling means. To this end, each upright can be provided with coupling members arranged at some distance from each other, which makes it possible to place a work floor or work platform at any height between two adjacent devices 10 at different heights depending on the height of the growing space.

It will be clear that this results in an efficient device according to the invention, wherein with an efficient use of the available surface in a growing space large numbers of crops can be grown with an increased yield and an improved yield.

10313 16

Claims (13)

1. Device for growing crops in culture containers comprising a light-exposed grow space, in which one or more culture containers with crops present therein can be arranged, characterized in that the device is provided with a light-free storage space, as well as means, which are adapted to alternately move the one or more growers in the grow room or the set-up room. 2. Device as claimed in claim 1, characterized in that the installation space is included in the device under the growing space. 3. Device as claimed in claim 1 or 2, characterized in that the displacing means comprise two endless carriers placed at some distance from each other and arranged over drivable rollers, with which the one or more grow containers can be moved. 4. Device as claimed in claim 3, characterized in that one or more support elements are accommodated between the two endless carriers, on which the one or more culture containers to be displaced can be arranged. 5. Device as claimed in claim 4, characterized in that each support element is received between the endless carriers in such a way that it continuously orientates itself in a horizontal plane. Device as claimed in claim 5, characterized in that each support element is rotatably attached to the endless carriers. 7. Device as claimed in claim 6, characterized in that each support element is rotatably attached to the endless carriers by means of a support shaft. Device as claimed in one or more of the claims 4-7, characterized in that each support element is provided with one or more recesses, in which one or more grow containers can be accommodated. 9. Device as claimed in claim 8, characterized in that the recesses are designed as openings. Device as claimed in one or more of the claims 3-9, characterized in that the voltage in the endless carriers is adjustable. Device as claimed in one or more of the claims 3-10, characterized in that the endless support is designed as a chain. Device as claimed in one or more of the claims 3-10, characterized in that the endless carrier is designed as a drive belt. 13. Device as claimed in one or more of the foregoing claims, characterized in that for moving the one or more grow containers between the grow space and the set-up space, the set-up space can be opened at least partially. 10 1031316