BE1020672A3 - GROWTH BAG FOR GROWING PLANTS. - Google Patents

Description

Growth bag for growing plants.

The invention relates to a container for growing plants, wherein the container contains an amount of at least one growing medium according to the preamble of the first claim. This invention also relates to the use of the container for packaging a growing medium for growing plants, as well as to the compostable plastic film.

Biodegradable containers for growing plants, i.e. containers that are degraded in the environment after a certain time, have been known for some time. Biodegradable means that the material is hydrolytically and / or oxidatively, predominantly metabolically converted into carbon dioxide, methane, water, biomass and other degradation products, whereby the degradation products have a minimal impact on the environment. Biodegradable also means that residues can remain in the environment and that the concentration of heavy metals is very low and below legal standards. The legal standards for biodegradable materials are laid down in the Royal Decree of 9 September 2008 laying down product standards for compostable and biodegradable materials.

JP 2000 333529 describes, for example, a biodegradable container made from textile fabric, non-woven material or a biodegradable synthetic resin, for seed germination. The seeds are sown on a mix of peat or other raw materials and water-containing material. JP 09 235732 describes basic plant growth material contained in a biodegradable growing bag made from biopolymers-based material such as natural fibers, paper, hemp or non-woven material.

The biodegradability of these prior art containers is determined by the nature of the material. Taking into account the timing of the harvest or the duration of a cultivation, it is necessary to choose the material for the container in such a way that its lifespan is adjusted to the duration of the cultivation and / or harvest. Extensive degradation of the material of the container is not desirable during the period in which plants are grown or during the harvest period in which the plants contained in the container produce harvestable fruits, but should only occur afterwards.

There is therefore a need for a container for packaging growing medium for growing plants, the life of the container, which is the period after which degradation of the material occurs, is adjustable taking into account the intended useful life of the container.

The object of this invention is to provide a container for growing plants that can be used in an ecologically and economically responsible manner in agriculture and horticulture and in particular for use in organic agriculture and horticulture but also in glass farming. and greenhouse horticulture.

The object of the present invention is in particular to provide a container for growing plants, wherein the container contains an amount of growth medium for plants, wherein the life of the container can be controlled taking into account the intended duration of use.

This is achieved with the invention with the technical features of the feature of the first claim.

To this end, the invention is characterized in that the container is made from a compostable plastic film, wherein the plastic contains a polymer selected from the group of starch, starch derivatives and polylactic acid, or a mixture of two or more thereof.

The container according to the invention can suitably be used in various ways for growing plants or for harvesting fruits from harvest plants. For example, the container filled with growth medium can be used as a stand-alone unit for growing plants, the container can be placed in a larger container that contains growth medium itself, the container can be placed in a larger container that does not itself contain growth medium, container can be planted in open ground, placed in an aqueous environment, in gutters at a distance from the soil or any other environment deemed suitable for growing the plants intended for inclusion in the container.

The holder of this invention offers the advantage that biodegradation of the plastic film from which the holder is made is kept to a minimum under normal conditions of use of the holder and only starts under composting conditions. Because degradation only becomes significant under composting conditions, the holder is largely retained during the intended period required for growing the plants and harvesting. The compostability of the material ensures that the impact of the use of such containers on the environment is kept to a minimum. The legal standards for the compostability of materials are laid down in the Royal Decree of 9 September 2008 laying down product standards for compostable and biodegradable materials. In general, composting the container of this invention will be kept to a minimum during normal use of the container or will only continue to an acceptable level that does not prevent use of the container. In general, composting of the container of this invention will only commence when the plastic film is exposed to higher temperatures above 45 ° C, and in particular if the plastic film is first shredded and the shredded pieces of film are exposed to composting conditions. It is particularly advisable to shred the plastic film from which the container is made, as well as to regularly aerate and mix the material to be composted to provide optimum aeration.

Moreover, the use of the container of this invention which contains an amount of growing medium offers special advantages for growing plants above growing in open ground. By filling the container with a growth medium that is optimized taking into account the nature of the plant and the intended purpose, growth of the plant and harvest can be optimized. For example, it is possible to optimize flower formation or fruit yield by adding nutrients for the plant chosen for this purpose to the growth medium. On the other hand, the coastal dust film acts as a protective wall that protects the growing medium and the plants it contains from pathogens. This mainly plays a role where the container containing growth medium is planted in open ground to mimic natural conditions for growing the plants as well as possible. The protective wall of the plastic film furthermore makes the growing medium more difficult to access for weeds and diseases, as a result of which the use of crop protection agents such as herbicides and fungicides can be reduced compared to growing in the open. As a result, conditions of organic agricultural cultivation can be optimally simulated and a number of problems that frequently arise with organic cultivation are solved at the same time. If desired, it is also possible to simulate the conditions of traditional garden and agricultural cultivation as well as possible.

The plastic film from which the container according to the present invention is constructed is compostable. Consequently, after use has ended, the container can be composted together with the growing medium contained in the container and waste from plants and / or crop plants grown in the container. Prior separation into different components or fractions is not necessary. The absence of the need for separation allows considerable cost savings.

In addition, the holder of this invention offers not only the advantage of being compostable, but also the time at which biodegradation can be controlled by the ratio between the amount of polymer, namely starch, starch derivatives and / or polylactic acid, and the amount of compostable plastic in the plastic film. According to the inventors, the ratio of polymer-compostable plastic has an influence on the starting point and the duration of the degradation process. It is believed that the ratio between the starch, starch derivative and / or polylactic acid and the compostable plastic has an impact on the chemical and mechanical properties of the plastic film, as well as on the water absorption capacity and consequently the composting rate. By controlling this ratio, it is possible to ensure that biological degradation or composting is kept to a minimum during the cultivation of the plants and only becomes substantial under composting conditions. By controlling this ratio, it is therefore possible to ensure that the starting point of the biodegradation can be adjusted to the wishes of the user.

Within the scope of this invention, the composition of the plastic film can be varied within wide limits. The plastic film preferably contains between 40.0 and 90.0 wt. % of the compostable plastic and between 60.0 and 10.0 wt. % of the polymer, more preferably between 50 and 80 wt. % of the compostable plastic and between 50.0 and 20.0 wt. % of the polymer, even more preferably from 60 to 70 wt. % of the compostable plastic and between 40.0 and 30.0 wt. % of the polymer. The inventors have found that a film with such a composition offers the best possible balance between on the one hand a film with sufficiently good mechanical properties and an adapted water absorption capacity and on the other hand a sufficiently rapid biological degradation under composting conditions.

Within the scope of this invention, the plastic from which the plastic film is made can contain one or more additives. Preferably, that additive can be selected from the group of vegetable oils or mixtures of vegetable oils. Vegetable oils can be, for example, one of a linseed oil, sunflower oil, soybean oil or palm oil or a mixture thereof. These vegetable oils contribute to the hydrophobic character of the plastic film. By adjusting the ratio between oil on the one hand and starch / starch derivatives / polylactic acid, it is possible to control the life of the film or in other words the speed at which composting proceeds. Thus, it is possible to slow down or accelerate the rate at which the plastic film composts by adjusting the ratio of oil to starch / starch derivatives / polylactic acid. By incorporating vegetable oils in the film, the proportion of hydrophobic compostable plastic in the plastic film can, for example, also be reduced if this is desired by the user.

The plastic film can comprise a colorant. Coloring agents used in the plastics industry can be organic or inorganic. Titanium dioxide and carbon black are examples of commonly used dyes that improve or change the color, clarity and tensile strength of the plastic. By choosing the colorant, the light transmittance can be selected, as a result of which, among other things, the temperature of the container can also be influenced indirectly. This offers clear advantages in achieving optimum conditions for growing plants and can also have an impact on the biological degradation of the container.

The film can further comprise a UV stabilizer. Because the container made of plastic film is primarily intended for use outside the home, in the ground or in greenhouses, there is a risk that they are frequently exposed to light, including UV light. UV stabilizers protect the plastic film against degradation through exposure to light, in particular UV light. Different UV stabilizers can be used depending on the material of the foil. UV stabilizers such as benzophenones work by absorbing the UV light and limiting and preferably preventing the formation of free radicals. The concentration of UV stabilizer is usually between 0.05 and 2.0% by weight, in exceptional cases up to 5.0% by weight. However, the UV stabilizer is not an essential aspect of the invention.

The plastic film can further comprise a UV stabilizer to protect the film and the contents of the container against long-term degradation by UV light. Examples of suitable UV stabilizers are benzophenones. Concentrations usually range from 0.05% to 2.0 wt. %, but can go up to 5.0 wt. %.

The container usually contains a growing medium for plants so that a plant can be planted and grown. The nature of the growth medium is not essential to the invention. The growing media known to those skilled in the art can be used. The growth medium is preferably organic. An example of a suitable organic growth medium is peat. More preferably, the growth medium may comprise Irish or Baltic peat, or a mixture of both. Preferably, the growth medium may also comprise compost. The growing medium makes it possible to provide an optimum environment for the plant even if the container is used in a (less optimal) environment or is planted in a less optimal soil.

By providing a suitable growth medium in the container, an adapted and standardized cultivation of plants can be realized, without it being necessary to disinfect the soil in which or on which the container is placed. The use of a holder can limit the consumption of water and nutrient elements, thanks to a more efficient absorption and the possibility of recirculating drainage water and nutrient elements. In this way the plant growth is better controlled and the grower obtains an earlier and larger but also more uniform harvest. In other words, plants with a high, uniform quality can be grown in an economically viable and ecologically responsible manner. By varying the composition of the growth medium, the water uptake and the uptake of nutrient elements can be regulated, depending on the plants to be harvested. If necessary, additional nutrient elements in the form of compost and organic or chemical fertilizers can be added to the growth medium. Because both the holder and the growing media are compostable, they can be composted together, without the need for prior separation, sorting and separate processing.

This invention further relates to the use of the above-described container according to the present invention in which an amount of growth medium is included, for growing plants in organic farming and / or glass farming and / or the glasshouse cultivation, wherein the container has an amount of growing medium for growing the plants. This use offers many advantages as already explained above.

Organic agricultural cultivation stands for agricultural methods that meet certain requirements in the field of the environment, nature and landscape and production methods, whereby natural conditions are simulated as well as possible. The basic technical requirements for organic farming are set out in European Regulations 834/2007 and 889/2008. The use of the container according to the present invention for receiving a growing medium for growing plants offers the advantage that on the one hand the growing conditions for the plant can be precisely regulated, and on the other hand that the conditions specific to organic agricultural cultivation can nevertheless be respected. In addition, the impact of the material of the growing bag on the environment can be reduced to a minimum, because the growing bag, the growing medium contained therein and plant residues can be composted together without the need for prior separation of the components. In addition, the composition of the container can be selected in function of a specific plant species such that composting is used as soon as possible after harvesting and the environment is burdened as shortly as possible by growing the plants.

This invention also relates to the use of the above-described container in which an amount of growth medium is included, for growing plants.

This invention also relates to the use of the container described above, in which an amount of growing medium is included, for receiving plants for growing and harvesting harvested fruits in organic or glass farming.

The container is herein preferably made from a compostable plastic film, wherein the plastic contains a polymer selected from the group of starch, starch derivatives and polylactic acid.

This invention also relates to the use of the container described above wherein the compostable plastic selected from the group consisting of polyolefin, polyester and polyester amide.

The present invention further relates to the use of the container according to the present invention for packaging a growing medium for growing plants.

The use of the container according to the present invention for packaging a growing medium for growing plants offers the advantage that the plants can be grown in an optimum environment despite being planted in a (less optimal) soil. To further adapt the holder for growing plants, for example, drainage or planting holes can be provided in the holder. It is furthermore also possible to adapt the shape and dimensions of the container to the nature of the plants to be grown.

This invention further relates to a compostable plastic film for growing plants, wherein the film is made from a plastic selected from a compostable polyester or compostable polyester amide, wherein the plastic further comprises a polymer selected from starch and / or polylactic acid.

Starch, in the context of this invention, refers to raw starch, modified starch or a derivative of starch. Raw starch is, for example, (sweet) potato starch, tapioca starch, corn starch sago starch or still amylum oryzae. Modified starch refers, for example, to alpha starch, white dextrin, yellow dextrin, British gum or oxidized starch. As a derivative of starch, for example, starch ether, starch ester, starch acetate ester and phosphorus ester starch carboxyethyl ether, starch hydroxyethyl ether or starch hydroxypropyl ether may be mentioned.

Polylactic acid or polylactide is the name for thermoplastic polymers of lactic acid. They are compostable, biocompatible and are produced from renewable vegetable raw materials (corn starch or sugar cane), and are a sustainable alternative to traditional plastics from petroleum chemicals such as polyethylene, polypropylene or polystyrene.

Examples of compostable plastics suitable for use in this invention are polyolefins, polyesters and polyamides.

Examples of suitable polyolefins are polyethylene, polypropylene.

Examples of polyesters that can suitably be used for the manufacture of the plastic film are polyhydroxyalkanoates such as polyhydroxybutyrate and derivatives thereof, polycaprolactone and derivatives, polyethylene adipate and derivatives, polyglycolic acid and derivatives. Polyester amides are very suitable compostable polymers because they combine degradability, thanks to the hydrolyzable ester groups (-COO-), with relatively good mechanical properties, thanks to the strong intermolecular hydrogen bonds that can arise between the amide groups (-NHCO-). Nowadays there is a wide variety of compostable polyester amides available. Compostable polyesters can be synthesized, for example, by reaction of aliphatic dicarboxylic acids, polyfunctional aromatic acids, whether or not of renewable origin diols. Polyester amides can be synthesized, for example, by ring opening polymerization of functionalized lactic acids or polycondensation of functionalized monomers with reactive hydroxyl, amine or ester-activated end groups.

Optionally, fillers can be added to these compostable polyesters and polyester amides, such as, for example, lignin powder, cellulose fibers, natural fibers, iron oxide, calcium carbonate and the like. The compostable plastics can be combined with the additives in various ways. For example, the compostable polyesters or polyester amides can be applied to a starch or polylactic acid substrate by rolling, spraying, lubricating or pouring.

Example 1

The composting of a container according to the invention made from 50.0 wt. % polyhydroxyalkanoate and 50.0% by weight of corn starch and containing a 60-40% by weight mixture of Baltic peat and compost was tested under composting conditions. The container, when filled, had a thickness of 0.2 mm, a length of 80 cm, a width of 23.5 cm and a height of 8.5 cm. To evaluate composting, the amount of carbon dioxide released during aerobic biodegradation was measured and compared with the theoretical amount of carbon dioxide that can be released from the container to the maximum.

After 58 days of composting at a temperature of 30 ° C, it was determined on the basis of the carbon dioxide measurement that more than 95 wt. % of the container material was broken off. The compost produced was subjected to a sieve test with a mesh opening of 2 mm. The portion that did not pass through the screen was less than 10% of the total amount of dry matter. The amount of heavy metals was below the legal standards.

Claims (20)

A container for growing plants, wherein the container contains an amount of a growth medium, characterized in that the container is made from a compostable plastic film, wherein the plastic contains a polymer selected from the group of starch, starch derivatives and polylactic acid or a mixture of two or more thereof. The container according to claim 1, wherein the compostable plastic selected from the group consisting of polyolefin, polyester and polyester amide, The container according to claim 1, characterized in that the plastic film is between 40.0 and 90.0 wt. % of the compostable plastic and between 60.0 and 10.0 wt. % of the polymer. The container according to any of claims 1 to 3, characterized in that the plastic contains a further additive selected from the group of vegetable oils or mixtures of vegetable oils. The container according to any of claims 1 to 4, characterized in that the plastic comprises a colorant. The container according to any of claims 1 to 5, characterized in that the plastic comprises a UV-absorbing agent. The holder according to any of claims 1 to 6, characterized in that the plastic comprises a UV stabilizer. The container of any one of claims 1 to 7, wherein the container contains an amount of growth medium of at least one raw material for one or more plants. The container of claim 8 wherein the growth medium is organic. The container of claim 9 wherein the growing medium comprises peat. The container of any one of claims 8 to 10, wherein the growth medium comprises coconut. Use of the container according to any of claims 1 to 11 for growing plants in organic farming and / or glass farming, wherein the container contains an amount of a growth medium for growing the plants. Use of the container according to any of claims 1 to 11 for receiving a growing medium for growing plants. Use of the container according to any one of claims 1 to 11, for accommodating plants for growing and harvesting harvested fruits in organic or glass farming. Use according to any of claims 12 to 14, characterized in that the container contains an amount of a growth medium and in that the container is made from a compostable plastic film, wherein the plastic contains a polymer selected from the group of starch, starch derivatives and polylactic acid. Use according to claim 15, wherein the compostable plastic selected from the group consisting of polyolefin, polyester and polyester amide, The use according to claim 15 or 16, wherein the plastic film is between 40.0 and 90.0 wt. % of the compostable plastic and between 60.0 and 10.0 wt. % of the polymer. Use according to any of claims 15 to 17, wherein the plastic contains a further additive selected from the group of vegetable oils or mixtures of vegetable oils. The use according to any of claims 15 to 18, wherein the plastic comprises a colorant. 20. Compostable plastic film for the manufacture of a container for growing plants, characterized in that the film is made from a plastic selected from a compostable polyester or compostable polyesteramide, the plastic further comprising a polymer selected from starch, a starch derivative and / or polylactic acid.