NL8900206A - Hydro-culture method for crop cultivation - includes plastics troughs with slots and water supply circuit - Google Patents

Abstract

The greenhouse crop cultivation method uses plastics troughs filled e.g. with rockwool. Cultivation arrangement includes provision for excess water which flows through pipe line (18). Water is returned by pump (19) and counterflow mechanism (20) which provides disinfecting, and return to drip feed nozzles (13). V-shaped brackets (21) are suspended in the trough (5) on which grid (22) keeps the rockwool strips from the trough bottom. This prevents a diseased plant from contaminating other plants in the trough.

Description

Method, installation and tools for growing crops according to the hydroponic method.

The invention mainly relates to a method for growing crops on the bottom of a greenhouse according to the hydroponic method, using plastic cultivation troughs filled with rock wool or similar material.

Such a method is known from Dutch patent application 83-03999. The known gutters are placed on an earthen bottom of a greenhouse covered with an approximately 0.07 m thick running foil. Despite the fact that it is made of a type of material that campers often use for their tents, that running film appears to be due for replacement rather than the rock wool or similar material that is in the gutters. This means a lot of extra work, because often the pipe rail system also has to be removed and replaced, and an unnecessary burden on the environment. If the foil breaks, feed water can seep into the soil, which means both environmental damage and loss of efficiency of the feed water system. Moreover, it is of course a drawback that the gutters lie almost loosely on the running foil, because they can easily slide out of their correct position, both in direction and in slope.

The object of the invention is to improve the foregoing. According to the invention this is achieved in that the bottom is provided with slots and in that gutters are arranged therein, the distance between the slots being covered by connecting parts which are integral with the gutters.

It is cheapest to mill the slots in the bottom, but it is also possible to delimit the slots by tempex strips. In both cases, use a certain slope, for example 0.25%, to let the excess water flow to the end of the hood.

The troughs in one hood, standard 3.2 m wide, of a greenhouse preferably consist of one whole and the two connecting parts of neighboring hoods are preferably overlapping.

If the installation used for practicing the above-mentioned method is provided with a water circuit that moistens the crop from above, grids may be provided in the gutters to support the rock wool according to the extension. As a result, the rock wool and the drainage water are separated from each other in such a way that it is no longer possible to transmit diseases via water.

Special tools have been developed to efficiently install the gutters and connecting parts that are delivered in a roll form at the factory. This tool consists of a removable rack with bearings to support a roll with collapsed culture chutes and a number of "folding blocks" to unfold the culture chutes. This scaffold may have further means, but in a preferred embodiment it is in any case determined that at least the roller and the folding blocks are arranged at an angle such that the gutters and connecting parts can pass between the pairs of columns of a hood.

The invention will be explained in more detail below with reference to the drawing, which shows by way of example a number of embodiments of an installation and a tool that can be used in the invented method. In the drawing: figure 1 shows a schematic cross-section through a part of a greenhouse, figure 2 a diagram explaining working with an installation according to the invention, figure 3 in perspective a part of a gutter with a water circuit connected to it, figure 4 the same as figure 3 but with a grid to reduce contamination, figure 5 a perspective view of a tool for laying the gutters and connecting parts, and figure 6 a view of the tool in the direction of the arrow VI of figure 5.

Figure 1 schematically shows a cross-section of a hood 1 with a portion of other hoods 1 * and 1 '' connecting to both edges. The standard hood width is about 3.2 meters, and the hood length (perpendicular to the plane of the drawing) is usually 70 meters, built from two 33-meter lengths and a 4-meter path in between.

Concrete bases or foundation blocks 3 are placed in the bottom 2 of the greenhouse, supporting metal columns 4 of the caps in a known manner.

The bottom 2 is perpendicular to the plane of the drawing at a slope or slope such that nutrient water supplied at one end of troughs 5 at the correct flow rate flows through support wool or similar material placed in the troughs to the other end of the troughs . This slope is usually 0.25%, that is, about 8 cm at 33 meters.

The gutters 5 are located in soil made, for example milled slots, and are interconnected by connecting parts 6. Instead of milling slots in an earthen floor, in the case of, for example, a concrete floor, it is sufficient to lay down tempex strips 7 (left in figure 1) that also define slots. At the location of the transition to a further hood 1 ', 1' 'an overlap 8 can be made. Naturally, the connecting parts around the foundation blocks 3 must be cut away in the same manner as has been done hitherto with the running foil.

The drawn arrangement shows four gutters per hood and it is suitable for tomato and pepper cultivation. Cucumber cultivation usually uses only two gutters per cap, and other crops may have different gutter numbers per cap.

Figure 2 shows a transverse mandrel as in Figure 1 with an imaginary bottom shown in the plane of the drawing and the like. The installation is done from left to right as follows. Stone wool strips 9 are first laid in a gutter 5. These strips 9 are then covered with a foil strip 10 in which planting holes 11 are arranged at regular distances.

Finally, crop rock wool pots 12 are placed on the exposed rock wool strips 9 and the drippers 13 are connected. On the wide connecting parts 9 there are foot plates 14, each provided with two V-shaped slots 15 in which the pipes 16 are supported, which can serve both for circulating heating fluid and for providing a path for trolleys (not shown) for internal transportation. The drippers 13 are connected to a common conduit 17. It will be clear that replacing the known running foil with connecting parts 6 connected to the troughs 5 saves a lot of work in the area of removing and refitting the parts 5, 9, 10 , 14/15, 16 and 17.

Figure 3 shows a gutter 5 in more detail. The excess water flows through the + 0.25% slope to a return line 18 at the end of the hood and is returned to the drippers 13 by a pump 19 and a counterflow device 20, which is used for decontamination.

Fig. 4 shows essentially the same thing, but now u-shaped brackets 21 are suspended at substantially equal mutual distances, on which lies a grid 22 which keeps the rock wool strips 9 at a distance from the bottom of the gutter 5. As a result, a sick person do not contaminate plants placed in the gutter after it, at least not by water.

The thickness and the properties of the white-colored plastic used for the gutters lends itself to being produced, transported and processed in roll form in the manner known from Dutch patent application 83-0999. This will be further elucidated with reference to Figures 5 and 6. In these figures an obliquely placed shaft 23 is visible, which is provided with a baffle plate 24 near the low-lying end. From the other end, a roller with folded-in cultivation troughs 5 and connecting parts 6 are slid onto the shaft 23. Despite the width of about 3 meters of such a roller, it can still be transported (lengthwise) on a truck.

Once arrived at the greenhouse, the roll is placed on a preferably mobile rack and driven over the concrete middle path to the hood. The rack has (see Figure 6) a short kinked console 25 and a high kinked console 26. Both consoles have bearings at their top for rotatably receiving the roll. The inclined position is chosen such that even after the gutters 5 are unfolded with the aid of folding blocks 27, the projection of the gutters 5 and the connecting parts 6 can pass between the columns 4 of the hood.

The folding blocks 27 are mounted on a support rod 28 which is connected to one of the shafts 29, 30 on which pairs of drive and pressure rollers 31. 32, respectively. The pressure rollers 32 are freely rotatable on the shaft 29 and the drive rollers 31 are rotatable on the shaft 30 which is suitably drivable. If necessary, heat can be applied between the roll and the folding blocks 27 to transfer the gutters from their transport form to the use form. This depends on the choice of material of the gutters, the main focus of which is on plastics from the group polyethylene with a thickness between about 1 and 1.5 mm.

The plastic cultivation trough plate is inserted obliquely to the horizontal into the hood and extended to the end of the hood. After that the legs 3 are cut out with the help of a punch / cutting iron. The overlap 8 of the newly installed cultivation trough plate with that of the previously installed cultivation trough plate is finished watertight with double-sided (waterproof) adhesive tape / sealant and optionally tightened with rivets. Then the space between the cultivation trough plate and the bases is sealed. Finally, the ends of the gutters 5 are sealed, and the gutters are connected to a feed water recycling system.

Other embodiments than those discussed with reference to the drawing also fall within the scope of the invention.

Claims (11)

Method and device for growing crops on the bottom of a greenhouse according to the hydroponic method, using plastic cultivation troughs filled with rock wool or similar material, characterized in that the bottom is provided with slots and that gutters are provided therein (5) are arranged with the distance between the slots covered by connecting parts (6) which are integral with the troughs. Method according to claim 1, characterized in that the slots are milled in the bottom. Method according to claim 1, characterized in that the slots are bounded by tempex strips (7). Method according to any one of claims 1-3, characterized in that the gutters in one hood of a greenhouse consist of one piece. Method according to any one of claims 1 to 3, characterized in that two connecting parts (16) of adjacent hoods are arranged overlapping one another. Installation for applying the method according to any one of the preceding claims, with a water circuit that moistens and feeds the crop from above, characterized in that a grate (22) is provided in the gutter 5 for supporting the rock wool. Tool for applying the method according to any one of claims 1-6, characterized in that it consists of a mobile rack with bearings for supporting a roll with folded-in cultivation troughs and a number of "folding blocks" (27) unfold the cultivation troughs. Tool according to claim 7, characterized in that the folding blocks are arranged on one of the axes of pairs of drive rollers (31, 32) associated with the folded-out gutters. Tool according to claim 7 or 8, characterized in that a heating device for the channels (5) and connecting parts (6) is arranged between the bearings and the folding blocks. Tool according to claim 7 or 8, characterized in that at least the roller (5, 6) and the folding blocks (27) are arranged at an angle such that the channels (5) and connecting parts (6) can pass between the pairs of columns ( 4) from a hood. 11. Method, installation and tools as shown in the drawing and / or discussed on the basis thereof.