NL9300687A - Cultivation substrate - Google Patents

Abstract

A substrate for cultivating plants, for example chrysanthemums, the substrate being accommodated in a holder, for example tray- and channel-shaped, and being formed by a cultivation layer which is arranged in the holder and in which the roots of the plant are to be accommodated, the cultivation layer being supported by a layer of filter material, with a layer of drainage material positioned beneath it, so that it is possible to use a cultivation layer which is 75% thinner, and excess irrigation water can be discharged via the filter mat into the drainage layer, while a shortfall of water is compensated for by moisture which remains in the filter material, which acts as a reservoir by capillary action.

Description

CROP SUBSTRATE

The invention relates to a substrate for growing plants, for example chrysanthemums, wherein the substrate is accommodated in a holder, for instance in a baking or gutter-shaped form, and is partly formed by a cultivation layer of suitable material, for example plastic, arranged in the holder or natural topsoil, in which the roots of the plant can be included.

It has been found in practice that the cultivation of plants, in particular for the drawing of flowers, can best take place in a controllable cultivation layer, which can be disinfected again after use. The problem that arises here is that one wants to use as little of that layer as possible, because it has to be cleaned again after use before the layer can be used again. The drawback of a thin layer is that the watering of the plants is not easy to control. The plants are either too wet or too dry, which does not benefit cultivation.

The object of the invention is to provide such a substrate, wherein the above-mentioned problems are avoided.

The substrate according to the invention is distinguished in that the cultivation layer is supported by a layer of filter material, with a layer of drainage material placed below it.

With such a combined filter drainage layer, it is possible to use 75% thinner cultivation layer, whereby an excess of irrigation water can be discharged through the filter mat into the drainage layer, while a shortage of water is absorbed by the moisture remaining in the filter material, which remains as a reservoir due to capillary action.

The layer of drainage material is preferably formed by a "non-woven" layer of synthetic fibers, for example polypropylene.

According to the invention, the layer of filter material can be made of synthetic fibers, which are arranged closely together, such that a higher density than that of the drainage layer is achieved.

The filter layer can obtain such a strong structure that tensile forces can be exerted thereon, so that the entire substrate can be pulled out of the tray or container for automatic harvesting purposes.

For ease of handling in preparing the preparation of the substrate in the containers, it is preferable to pre-bond the layer of filter material and the layer of drainage material or the cultivation layer.

The invention further relates to a method of manufacturing such a cultivation substrate. The method is distinguished by: - applying and adhering a layer of plastic fibers, for example of polypropylene, to a plastic film, in order to obtain a fine-meshed filter layer; - applying a layer of plastic fibers, for example of polypropylene, to the fine-mesh filter in a "non-woven" manner with a coarser mesh structure than that of the filter material; and - joining the two layers by passing needles through the two layers periodically from the plastic film to obtain adhesive loops.

The same operation can be performed if the cultivation layer also consists of "non-woven" material, so that an integral substrate is created.

The invention is further elucidated in the figure description below of two exemplary embodiments.

In the drawing: fig. 1 shows a perspective top view of a substrate placed in a tray according to a first exemplary embodiment of the invention, fig. 2 shows a perspective view corresponding with fig. 1 of a second embodiment thereof.

Fig. 1 shows a perspective view, partly in section and with partly broken away parts of a substrate according to the invention applied in a holder.

The number 1 indicates the holder, which can be gutter or box-shaped, in which case the three front side walls of the box have been broken away for clarification. The tray is made of impermeable material, for example PVC, and can be of any size.

A layer 2 is provided on the bottom of the tray 1, which consists of drainage material formed from "non-woven" synthetic fiber with coarse mesh size. The ± 10 cm thick layer has a weight of ± 900 gr / m2, with a 0-90 screen value of 750.

A filter mat 3 in the form of filter material of, for example, plastic fibers is provided on the layer of "non-woven" material 2, which mat 3 serves to support a cultivation layer. This layer can be natural topsoil 4 or also a "non-woven" material. This layer 3 has a weight of 500 gr / m2 with a layer thickness of 1/2 cm. The layer does not let sand through, but it is permeable to water.

The plants P are planted in the cultivation layer 4, whereby the roots of the plant can expand in the layer of topsoil. The irrigation of the plant can take place by means of a known irrigation system, consisting of a main line 10 with branch lines 11, the free ends of which are provided with a dividing head 12 for bringing the irrigation liquid to the plants P.

Excess water can descend via the cultivation layer through the filter mat 3 to the drainage layer 2, and can be discharged from the container in any way. Free liquid flow in a horizontal sense through the drainage layer 2 is possible. Not all the water is drained, but part of it remains in the filter mat 3, where a certain amount of water is retained by the capillary action.

In the case of a shortage of irrigation liquid, the cultivation layer 4 therefore remains moist through the flash mat 3, whereby drying is prevented.

With a substrate proposed by the invention it is possible, for example, to limit a normal cultivation thickness of 40 cm topsoil to a total substrate height of 10 cm, of which approximately 7 cm is used by the cultivation layer. The filter, in this case drainage layer, is about 3 cm thick.

If use is made of a plastic film 9, which serves to produce the substrate support layer, then this plastic film is made with holes 13, which can be obtained by a needle operation. These holes serve to pass the water through the water-impermeable foil in order to promote the desired drainage.

The advantage of this plastic film is that the layer of topsoil can either be easily removed, so that the support layer can be reused for a new cultivation cycle with new topsoil, or can be used as a pulling member by pulling the entire substrate horizontally from the leg-shaped holder. The latter is especially important if the cultivation layer also consists of "non-woven" material which can be "sewn" to the film in the same manner, as described above. Thus, the support layer can be used for a long time.

Fig. 2 shows the second embodiment of the substrate of the invention, using the same reference numerals for the same elements as in FIG.

As mentioned above, the cultivation layer is formed by a "non-woven" material 4 'on which the pots Q are placed, in which pots the plants P have been drawn. The pots are placed at a distance from each other, the plant itself being supported by a network 15 placed on the top edge of the tray 1.

Practical tests have shown that the roots of the plant P, which initially only reside in the pot Q.

piercing in the cultivation layer 4 ', but not growing through the filter material 3.

The substrate, here consisting of the drainage layer 2, the filter mat 3 and the cultivation layer 41, can be reused after it has been removed from the tray 1, the pots Q with associated plants P have been removed and disinfected.

It is preferable to make the cultivation layer 4 'with a white color, which contributes to a faster growth of the plants P in the pots Q.

The invention is not limited to the above-described embodiments.

Claims (7)

1. Substrate for growing plants, for example chrysanthemums, wherein the substrate is accommodated in a holder, for instance in a baking or gutter-shaped form, and is formed by a cultivation layer arranged in the holder, in which the roots of the plant can be accommodated, with characterized in that the cultivation layer is supported by a layer of filter material, with a layer of drainage material placed below it. Substrate according to claim 1, characterized in that the layer of drainage material and / or the cultivation layer is formed by a "non-woven" layer of synthetic fibers, for example polypropylene. Substrate according to claim 1 or 2, characterized in that the layer of filter material is made of plastic fibers, the mesh size of which is smaller than that of the "non-woven" drainage layer. Substrate according to any one of the preceding claims, characterized in that the filter material is attached to the "non-woven" drainage layer and / or the cultivation layer. Substrate according to one of the preceding claims, characterized in that the cultivation layer made of "non-woven" material has a white color. Method for manufacturing a support layer for a substrate according to claim 1, characterized in that - a layer of plastic fibers is applied to a plastic film in order to obtain a fine-mesh filter; - that a "non-woven" layer of synthetic fibers with a coarser mesh structure is applied against the fine-mesh filter on the side thereof facing away from the synthetic foil; that the layers are adhered to each other by passing needles through both layers periodically from the plastic film and withdrawing them to obtain adhesive loops from the fiber material of the "non-woven" drainage layer which insert into the filter. Method according to claim 6, characterized in that the "non-woven" cultivation layer is adhered to the filter layer by the same needle operation.