DE2819871A1 - METHOD FOR IMPROVING THE GROWTH OF PLANTS IN A HYDROCULTURE - Google Patents

Abstract

A nutrient solution containing ion-exchanger plant food is additioned with a mixture of this ion-exchanger plant food and calcium sulphate. This causes the nutrients to be liberated rapidly, in particular at the beginning, and independently of the type of irrigation water. Optimal plant growth takes place. The nutrient solution is preferably additioned with other active substances in porous, capillary particles, so that these active substance too are released into the nutrient solution over a prolonged period. The mixture of ion-exchanger plant food, calcium sulphate and, if appropriate, particles, is packaged in a plastic container (8) and then introduced into the hydroponics container (1), the exchange of substances from the container (8) into the nutrient solution taking place through a plastics mesh (11) which is permeable to the solution and covers an opening (10') of the container (8). <IMAGE>

Description

The present invention relates to a method for improving the growth of plants, in particular ornamental plants, in one Hydroponics. There are known methods of promoting growth, in which there are particles of an ion exchange synthetic resin fertilizer in the nutrient solution. This will be a long-term one The aim is to release micro and macronutrients to the nutrient solution and thus to the plants within 4-6 months.

It has now been found that in many cases the addition of long-term ion exchange fertilizers is not satisfactory. That applies especially to water with low conductivity, e.g. rainwater, surface water, desalinated, treated water or especially soft waters of a certain composition. In such waters, the nutrients are released not very intense, so that the growth of the plants is disturbed. It was also found that the release of trace elements Fe, B, Zn, Cu and Mo is unsatisfactory even in water with high conductivity.

It is the aim of the present invention to provide much better conditions for the growth of the plants or for the effective release of the existing nutrients. This is according to the invention achieved by adding a mixture of an ion exchange fertilizer and gypsum (CaSO-) to the nutrient solution » It has been shown that gypsum controls the release of nutrients in an ideal way. This is explained by the fact that plaster of paris is at room temperature immediately goes into solution up to a maximum concentration of 2.5 g / 1 and any consumption is immediately compensated will. The increase in the salt concentration through the addition of gypsum has no negative effects on plant growth On the contrary, when using water that is low in Ca, the Ca supply is reduced of the plants - which is not guaranteed by the use of ion exchange fertilizers.

The mixture to be added preferably also contains macronutrients, Growth substances and especially micronutrients, on the one hand in immediately available form and on the other hand in slowly in soluble form. It can s.B. capillary particles

8098 ^ 5/1054

made of inorganic, neutral and insoluble material, for example burnt clay particles, in which the nutrients and growth substances are stored. They are gradually dissolved after they have been added to the nutrient solution and thus represent a very valuable start-up aid for growth, as the concentration of important nutrients, especially trace elements, is increased for a certain period, which can be shorter than the duration of the action of the ion exchange fertilizer . Any combination of the trace elements Al, As, B, Ba, Bi, Br, Cd, Co, Cr, Cu, Fe, Hg, J, Li, Mn, Mo, Ni, Pb, Rb, Se, Sn, Sr, Ti, V, W _f and Zn can be added. Other active substances, for example fungicides, insecticides, bactericides, growth inhibitors, and pH-stabilizing substances can also be added.

The following is an example of test results, which clearly shows the growth-promoting effect of the measures according to the invention. The experiments were each with one Plant Dracaena Fragrans Massongeana carried out, which stood in a vessel with 500 ml of water, with two experiments each with soft Water of 4 German total degrees of hardness and two tests with hard water of 25 German total degrees of hardness were carried out. An experiment with a mixture of 25 ml ion exchange long-term fertilizer and 1 gr of plaster of paris was carried out with each of the two waters, the results of which are listed in columns A, and an experiment was only carried out with 25 ml ion exchange long-term fertilizer. Grew and Foliage color is rated with grades 5 to 1, with 5 being the best grade, while peak necrosis is rated 1-5, where 1 is the best grade.

809845/1054

A. after attaching B. 3.5 281 9871 A. B. 4.9 4.2 27OO 4 ° - 800 2.7 the mix 3220 1400 4.9 4.4 Content of the nutrient solution for 14 days
or the slow release fertilizer 301 64 3.8 25 ° 308 118 2.0 2.8 Water hardness DGH 38 22nd 42 33 470 111 507 185 Electric
conductivity
/ <MHO / CM N mg / 1 P ₂ O 5 mg / 1 K ₂ O mg / 1 Growth results 4 months growth Foliage color after the start of the experiment Peak necrosis 4.5 4.4 2.0

It is thus clearly shown that the addition of plaster of paris in soft water of 4 DGH - but also in hard water of 25 DGH - is a
has a stimulating effect on the release of nutrients from the ion exchange fertilizer.

The growth results after 4 months are essential for 4 DGH
cheaper with the version with plaster than with the one without the addition of plaster and even at 25 ° DGH, thanks to the addition of plaster, one more is possible
Improvement in plant growth achieved.

309845/1054

The mixture according to the invention can be prepackaged in special containers brought into the nutrient solution, or poured into the same in a dosed amount. One preferred according to the invention Execution is characterized in that a plastic container is provided, whose at least one opening with a diffusible plastic fabric which is welded to the opening edge or sealed, is complete. A deep-drawn container made of PVC can preferably be provided with its opening flange the plastic fabric is welded or sealed. This results in a particularly simple production.

The invention will now be explained in more detail with reference to the drawing:

Figure 1 shows a hydroponic container with an inserted container with the mixture according to the invention,

FIG. 2 is a section from FIG. 1 on a larger scale, and FIG. 3 shows a further container.

Figure 1 shows an outer vessel 1, in which an insert vessel 2 made of thin-walled, elastic plastic is used. The insert vessel is made of e.g. expanded clay balls 3 Filled substrate in which the plant is kept. The wall of the insert vessel has diametrically opposite, Groove-like indentations on which the flange has 4 openings having. In one of these openings a water level indicator is used, the tube 5 by means of a in a hole of the Wall engaging pin 6 is secured on the insert vessel. The bottom of the insert vessel has a raised point inside which a cavity 7 accessible from below is formed. This insert vessel and its use in an outer vessel is on known.

In the other opening of the flange 4 there is loosely a tubular one Container 8 used, the two with respect to a partition 9 symmetrical

309845/1054

having metric halves. Located in the two chambers of the container each a quantity of a mixture according to the invention capillary grains with active ingredients and an ion exchange long-term fertilizer. The rim protrudes at both ends of the container a lid easily over a re-entrant flange 10 of the same in front and is crenellated with projections and gaps. The opening of each flange 10 is covered with a diffusible fine plastic fabric 11, which is connected to the flange is welded, glued or sealed.

The lower end of the container 8 stands on the bottom of the outer vessel 1, whereby the gaps in the crown of the lid resting on the bottom allow the nutrient liquid to pass through. The nutrient fluid penetrates through the plastic fabric 11 into the lower chamber of the container, where the active ingredients go into solution diffuse the tissue 11 and reach the roots of the plant. Are e.g. those contained in the lower chamber after a given time Consumed substances, the container 8 is lifted, the lid removed, the container turned and reinserted, so that the active ingredients are dissolved in the chamber below. A similar container without a partition could also be provided be.

The container can be brought onto the market with protective covers 12 at both ends, of which the upper one in FIG. 1 is still in place is.

Figure J shows the second embodiment of a container for the mixture according to the invention, which container in the cavity 7 below the insert vessel, according to Figure 1, can be used.

The frustoconical, deep-drawn container 24 made of plastic has a flange 25, with which a fine, diffusible plastic fabric 26 is connected, which covers the container opening. On the flange 25 feet 27 are formed, which the container opening or the plastic fabric 26 at a distance above the floor hold the bowl 21, with which the nutrient liquid access to the artificial

309845/1054

fabric and penetrate through the same into the container can. In order to facilitate this penetration, the container can have fine ventilation holes or a membrane on the top made of plastic fabric of the type described above. As As described above, the released active ingredients diffuse through the fine plastic tissue into the nutrient solution and reach the Plant roots.

The manufacture of the container according to FIG. 3 is very simple and rational - the container can be deep-drawn in a production line, filled and closed by applying the plastic fabric.

Instead of containers with a more or less rigid container body and a diffusible membrane covering at least one opening, can also be made entirely of gauze, mesh or Tissue bags, similar to tea bags, with the mixture are brought into the nutrient solution at a suitable location. Preferably Such bags can be introduced into a liftable shaft that is slit at the bottom so that liquid and Nutrient exchange between the interior of the shaft and the KuIturbehnlter is possible, from which, however, the bags do not emerge can. When creating the culture, the water is now preferably only poured through the shaft when the bags are are already in it, a first-time intensive flushing and dissolving out of active ingredients and an even supply of the same to achieve all tank parts. This approach can be of particular interest if larger containers with several plants are supplied with active substances from one point have to.

But it is also possible to use the mixture without any container to be poured in loose form into the nutrient solution in a suitable place. However, the loose mixture is also preferred in this case placed in a shaft of the type mentioned above, with which then after the consumption of the active ingredients insoluble residues, how e.g. the clay particles can be excavated. Such a manhole or insert that can be lifted out can be implemented according to

303845/1054

281987Ί

Figure 1 can be used instead of the container 8. For other existing hydroponic vessels, the mixture can be loose or in Bags are introduced into a removable, sieve-like insert in the pouring and suction shaft.

303845/1054

"VfO-

L e r s e i t e

Claims (15)

INTERHYDRO AG IjIFL-IN .: "'''Bern (Switzerland) Method for improving the growth of plants in a hydroponics. PATENT CLAIMS I / Method of improving the growth of plants in a Hydroponics, characterized in that a mixture of an ion exchange fertilizer and gypsum is added to the nutrient solution. 2) Method according to claim 1, characterized in that gypsum is added in the form of powder or grains. 3) Method according to claim 1 or 2, characterized in that enough gypsum is added to achieve a concentration in the nutrient solution from 1 to 2.5 g / 1 at 20 C to produce and maintain. 4) Method according to one of claims 1-3, characterized in that, in addition, micro- and macronutrients and growth substances can be added. 5) Method according to claim 4, characterized in that the micro- and / or macronutrients are added in slowly soluble form will. 6) Method according to claim 5, characterized in that the Micro- and / or macronutrients in capillary particles made of inorganic mineral, neutral and insoluble material, e.g. in burnt clay particles. 7) Method according to one of claims 4 to 6, characterized in that that insecticides, fungicides, bactericides, growth inhibitors and the like are added as further auxiliaries. 8) Method according to one of claims 1-7, characterized in that that as trace elements at least the elements B, Co, Cu, 809845/1054 ORIGINAL INSPECTED Fe, Mn, Mo and Zn can be added. 9) Method according to one of claims 1-8, characterized in that a pH-stabilizing substance is added. 10) Method according to one of claims 1-9, characterized in that that trace elements are added in powder form, e.g. metal powder. 11) device for performing the method according to claims 1-10, characterized in that for receiving the mixture a plastic container is provided, the at least one opening with a diffusible plastic fabric, which with the The opening edge is welded or sealed, is complete. 12) Device according to claim 11, characterized in that the Container is made of PVC. 13) Device according to claim 11 or 12, characterized in that the container feet on an edge surrounding the opening has that hold the plastic tissue at a distance above the base when the container is standing on its feet. 14) Device according to one of claims 11-13, characterized in that that an elongated container is provided which has at least one passage point for active substances at each end, in such a way that each end can be associated with the nutrient fluid. 15) Device according to claim 14, characterized in that the interior of the container is divided into two halves by a partition is divided. 309845/1054