NL8502774A - Plant hydroculture system - indexes growth blocks along troughs in group diverging from one end - Google Patents

Abstract

The system grows plants on the hydroculture system, each plant being planted in a growth block, a row of blocks being then placed in a water trough. The troughs (3) are mounted in a group divering from one end (A), and the blocks (8) are indexed for a set distance along them at set intervals. The distance for which they are indexed can be proportional to the increasing distance between the troughs. A second group of troughs can be mounted alongside the first group, running the opposite way.

Description

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Hw / Mv / 2 Bastiaansen

Method and device for growing plants according to the hydroponics

The invention relates to a method of growing plants according to the hydroponics, wherein each plant is planted in a culture block or pot of suitable material, and a row of blocks are placed in a water channel.

It is known to arrange the channels side by side on a specific soil surface, whereby a sufficient distance must be maintained between the channels in order to be able to give them sufficient opportunity for growth in the final phase of the plant. This limits the number of places per surface needed for the culture.

The object of the invention is to provide a method with which the surface can be better utilized.

The method according to the invention is distinguished in that channels extending side by side are arranged in a group from one end in a divergent manner relative to each other and the blocks are moved after a predetermined period each time by a certain distance from that end.

Thanks to this arrangement it is possible to bring the channels closer together at the beginning of the growth because less space is needed for the plants, and when they mature the plants provide more space by sliding the plants through the channels .

Optimal surface utilization is obtained by arranging two groups of diverging channels next to each other, so that a rectangular piece of land can have an increase in yield of more than 100%.

The invention furthermore relates to a device for carrying out the above-mentioned method, which device is distinguished by a number of divergently arranged channels, along which means are operative for transporting a block or group of blocks each over a predetermined distance.

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The invention is further elucidated on the basis of the figure description below of a number of exemplary embodiments. In the drawing shows:

Fig. 1 a perspective top view of 5 rectangular beds each, provided with two groups of diverging channels according to the invention,

Fig. 2 a plan view of a rectangular bed with these two groups,

Fig. 3 is a perspective view of a block with a plant planted therein,

Fig. 4 a perspective top view of a channel provided with a number of blocks with plants,

Fig. 5 is a perspective top view of a portion of a strip of material that can be folded into a channel according to FIG. 4.

Fig. 6 is a schematic side view of a channel provided with means for circulating water,

Fig. 7 is a perspective top view according to FIG. 4, but of a group of diverging channels, FIG. 8 is a perspective view of the front of a block in a part of a channel, provided with means for moving the block,

Fig. 9 is a perspective top view of a part of a group of channels, provided with means for moving a group of blocks,

Fig. 10 a detail from fig. 9 according to the arrow X-X, fig. 11 a side view corresponding with fig. 6 of a slanting channel provided with transport means for moving the blocks therein, fig. 12 shows a detail of the transport mechanism of FIG. 11 along the pipe XII-XII.

Fig. 13 is a perspective top view of an alternative embodiment of a group of diverging channels.

35 The figures show the same parts with the same reference numerals.

Fig. 1 each shows on a rectangular piece of land 1, which is shielded in a known manner by a greenhouse construction 2 8502774 * -3-, each with two groups 3, 4 of diverging channels. The channels can, according to Figures 4 and 5, be formed from a strip of material 5, which is formed into a gutter by folding the side edges 6, 7 upwards according to arrows P1, so that a U-shaped channel is created, with a sufficient width to accommodate blocks 8 in which the plant P is grown, see also fig. 3.

The block 8 can be of any material, for example rock wool and according to an inventive feature is contained in a holder 9, which consists of an all round closed rim at the top of the block 8, see fig. 4 and 8, which edge 8 is placed on supports 10, so that block 8 is exposed at the bottom. This has been done to allow any root growth to be released and to easily separate the block from the container 9 at the end of the culture period.

It is clear from Figs. 1 and 2 that the channels formed by the channels 5 in a group 3 are arranged in a divergent manner next to each other from one end A. The length 20 of each channel resp. gutter 5 is such that at the other end B the channels lie maximally of each other, but such that the end of each channel is on the same line.

The gutters or channels 5 are arranged slightly inclined with respect to the horizontal, see fig. 6, so that water, if any, introduced into the channel, via the circulation system 11 consisting of a pump 12 and a dosing tap 13 on the high side of the gutter 5 can be introduced, after which it runs downwards under gravity to a collecting chute 14. The dosing tap 13 is arranged, for example, on the top left side in fig. 1 of groups 3 and 4, while the collecting chute 14 is on the opposite side of which is applied. A walkway 15 is placed between two receiving gutters 14, which is also located at the other end of the group of channels, connecting poles 16 being provided between each rectangular piece of land 1. This serves to give the supervisory personnel the opportunity to operate the means of transport further explained below and to oversee the entire cultivation process.

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According to the main feature of the invention, the pots 8 with the plants P are initially placed close to each other at the narrow end A of the channels, because the plants P still take up little space in an immature state.

5 After a certain period of time W1, see fig. 2, the pots 8 are moved a certain distance in the channel and the pots are placed at a greater distance from each other, see section W2 in fig. 2. This process is repeated over section W3 and W4, it should be noted that the distance between the blocks 8 increases each time both in the longitudinal direction of the channel and in the transverse direction because the channels 5 are spaced from each other. Such an arrangement and the arrangement of the groups 3 and 4 of divergent channels directed against each other, an optimum utilization of the rectangular piece of land 1 is achieved. This utilization can be twice the normal utilization in hydroponics.

The displacement of the pots 8 in the channels 5 can each be carried out manually, but in the following figures 7 and 20 proposals are made to do this mechanically.

The rim-shaped holder 9 is, according to Fig. 8, provided for this purpose with an eye 17 through which a carrying rod is inserted. The rod can also be replaced by a cord 19 in fig. 7. The rod or cord 18, 19 passes through an eye of holders 9 in a row, see fig. 9, so that by displacing the rod or cord 18, 19 in the longitudinal direction of the channels 5, a row of holders can be moved each time. The holders are guided into the gutters 5, so that they also move away from each other during that movement. This is possible because the eye slides along the rod 18 or cord 19.

According to Fig. 7, the cord is shifted in the direction of the arrow P2, because the cord is guided over a cord wheel 35 and is kept taut by means of tensioning means, for instance a weight 21 or spring. By moving the wheel 20 along a guide rod 22, a group of holders 9 with the blocks 8 can each be moved in the aforementioned manner. Sliding of the wheel 20 can take place manually, but also by, for example, turning the shaft 22 and axially displacing it with respect to the shaft 22 via a helical wedge mechanism.

If a rod 18 is used according to Fig. 8, a telescopic rod will be required in order to bridge the increasing distance between the extreme channels 5 of a group.

Another propulsion or displacement mechanism 10 is shown in Fig. 9. Here, the rod 18 is secured at opposite ends in a tooth block 23, see Fig. 10, which cooperates with an endless chain 24. The endless chain is moved by a sprocket 25 driven in the direction of the arrow P3, so that the upper part of the chain 24, on which the blocks 23 rest, is moved in the direction of the arrow P4.

The blocks 23 are additionally pressed into the chain links by means of a guide track 26 at the top of the block.

Each section W1 ..... W4 according to Fig. 2 is provided with an endless chain system 24. These chains 24 are arranged on either side of the group of channels. An endless chain 24 is rotated by a central drive motor 27 via a transmission 28.

Since the displacement of the blocks in the second section W2 have to bridge a greater distance relative to the section W1, the sections are mutually coupled by a gear transmission 29, consisting of two gears, which are arranged co-axially on the sprockets 25 between which an intermediate gear 31 is connected. The selection of the teeth is such that the gear 30 'of the right section in Fig. 10 rotates slightly faster in the direction of the arrow P5 than the gear 30 in the direction of the arrow P3. Thus, the chain 24 'of the next section is moved faster than the previous chain 24. This transmission mechanism 29 is placed between the sections W1-W2, etc., so that the chain rotates successively at a certain rotation speed of the drive motor 27 so that the distance between the blocks in) 502 774

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i 'v -6- a channel is enlarged.

An alternative displacement mechanism is shown in Figs. 11 and 12. The channels 5 are arranged at a certain height above the ground G, and are of such rigidity that they are self-supporting.

At the top of the channels a rod system is arranged, which consists of a number of bars 34 pivotable about a point 33 in each case. The pivot points 33 are arranged on an inclined path 35, which extends in the direction of the wide end B of the channels 5 extend further down and from the channels 5. The length of the pivot rods 34 is increasing towards the end B. The rods are mutually coupled by a driving rod 36 which can be moved back and forth by means of a motor, for instance a cylinder 37.

The end of each rod 34 is provided with a tiltable tongue 38, which is tiltable about an axis 39 relative to the rod 34, from the position drawn in solid lines in Fig. 12 to the position drawn in broken lines. At the end 40 facing the rod 34, the tongue 38 is coupled to a tension spring 41, which always forces the tongue into an extension of the rod 34.

The operation is as follows. When the driving rod 36 is moved, for example in the direction of the arrow P6 \ 25, the rods 34 are swung from the left-facing position in Fig. 12 to the right-hand position indicated by broken lines 34 '. Each tongue 38 engages behind a connecting rod 18 between the pots 8 and will therefore move a row of pots 8 an increasing distance to the right in the gutters 5. In the return movement against the direction of the arrow P6, the tongues 38 will be able to move freely under the rod 18 as a result of the tilting mechanism according to Fig. 12.

Yet another embodiment is shown in Fig. 35 13, wherein the channels 5 are placed in a circle in a radial manner. The pots 8 can be supplied from the center of the circle and each time pushed out by means of drive means (not shown). Is the plant P mature ft ~ λ) 77¾ c * A.

-7- then it will be on the periphery of the shear arrangement of the group of channels 5 and can be harvested there.

The cultivation method and device as described above are ideal for machine harvesting and further processing of the products. For example, see fig. 1, conveyor belts 50 can be arranged along the run-off end of the gutters, which discharge the adult products to a collecting belt 51. This belt 51, for instance, runs to a cooling cell 52, and then down a cutting or cutting machine. packing room 53, where the products are stripped of their roots, respectively. wrapped up. This benefits the quality of the product.

The invention is not limited to the above described embodiments.

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Claims (13)

1. A method of growing plants according to the hydroponics, wherein each plant is planted in a breeding block of suitable material and a row of blocks are placed in a water channel, characterized in that dividing channels next to each other diverging from one end are grouped relative to each other and the blocks are moved a predetermined distance from that end after a predetermined period. 2. Method as claimed in claim 1, characterized in that the displacement distance is increased every time proportionally with the increasing distance between the channels. Method according to claims 1 and 2, characterized in that the displacement takes place by sliding in the channels. Method according to claims 1-3, characterized in that a second group of diverging channels is arranged in opposite displacement direction next to the first group. 5. Method according to claim 1, characterized in that the group of channels are arranged in a radial manner relative to a center. Method according to one of the preceding claims, characterized in that the channel bottom is arranged inclined. Device for carrying out the method according to any one of the preceding claims, characterized by a group of elongated channels which are arranged divergently side by side from one end. 8. Device as claimed in claim 7, characterized in that a holder which is slidable in the channel is arranged for receiving a plant block. 9. Device as claimed in claims 7 and 8, characterized in that each holder is provided with adhesives for attaching a transport member, and displacing means are provided for moving the transport member in steps. ö 5 Λ O 77 | V V V Λ ^ * J -9- 5 Device as claimed in claim 9, characterized in that the transport member is designed as a telescopic rod extending transversely over the group of channels. 11. Device as claimed in any of the foregoing claims 7-10, characterized in that each channel is formed by a strip of material bent into a U-shaped trough. Device according to any one of the preceding claims 7-11, characterized in that a discharge conveyor is arranged along the outlet ends of the 10 gutters. Device as claimed in claim 12, characterized in that a cooling space is connected to the discharge conveyor. p ^ η η ι