HU225230B1 - Process for producing biodegradable packing material - Google Patents

Abstract

The invention relates to a method for producing biodegradable packing material, above all, for transferring seedlings and fertilizing them with artificial fertilizers. According the invention, a paste is prepared from flour, water and additives, and a receptacle is produced by shaping and heat treating said paste. A water-tight, decomposing layer is affixed to the outer and inner surfaces of the receptacle. The inventive method for producing biodegradable packing material is characterized in that nutrients are admixed to the paste that promote growth of the seedlings and are released during composting.

Description

BACKGROUND OF THE INVENTION The present invention relates to a process for producing biodegradable packaging material, in particular for seeding and fertilizing seedlings, comprising forming a dough from flour, water and additives, forming a container from the dough by forming and heat treating and applying a waterproofing layer to the outer and inner surfaces.

Many biodegradable packaging materials are known. WO 91/12186 discloses a thin-wall decomposing starch-based bakery package. The disadvantage is that the packaging is not form-fitting, it is not suitable for durable packaging. EP 0 471 306 discloses a polysaccharide-based bakery packaging material. Rubber is added to the dough in the form of latex milk or applied to the inside of the dough. It has the disadvantage that rubber is expensive and that moisture swells and penetrates the rubber. The gases also penetrate this packaging material and are therefore not suitable for durable packaging. EP 0 672 349 discloses a dough wrapping material pressed under refrigeration. EP 0 512 589 discloses a potato-based baked packaging material. DE 4 009 408 discloses a cellulose egg-based bakery packaging product. DE 4 221 018 discloses a process for making a pastry dish made using an alkaline liquid. DE 4 239 143 discloses a process for the manufacture of a bowl for human consumption which is made from two-stage baked dough and which is obtained in its final form in a chilled state. WO 97/00015 discloses a thin-walled, decomposing dough-baked packaging material. Before baking, the dough is treated with polyvinyl alcohol and zirconium salt. The disadvantage of these solutions is that they are not suitable for long-term packaging and seedling placement.

HU 209 239 and WO 95/34482 disclose a baking, environmentally friendly packaging that is resistant to fats and oils. The disadvantage of this solution is that the product appears to be fragile in practice and rapidly soaked in water.

A common disadvantage of most of these prior art solutions is that any protective linings are placed only on the inner surface of the wrapping material, so that from the outside there is nothing to protect the baked dough wrapping material from moisture or mechanical impact.

Patent application HU 206 510 discloses degradation of starch and at least one synthetic thermoplastic polymer such as polyethylene, polyester, polyamide and the like. describes a melt composition made therefrom and a process for its manufacture. The product is manufactured using plastic manufacturing techniques such as injection molding, extrusion, etc. packaging materials can be produced. U. S. Patent No. 211,430 discloses a plastic composition containing a similarly structured starch and a packaging material which can be made from the composition.

Publication No. HU T-67 243 discloses a process for the production of breakable, thin-walled, starch-based moldings. The starch-based ingredients are baked and molded together with fatty acids, plastics, fillers and other additives. DE 32 38 232 discloses an air-drying model and mold mass containing organic fillers and plastics.

A common disadvantage of products made from the above materials is that they are essentially homogeneous and do not contain a layer which makes them more durable.

HU-61 925 discloses a low-permeability starch matrix laminated film and a process for its preparation. The film is a two-layer film based on a starch and synthetic polymer-containing layer on which a hydrophobic second layer of poly (para-xylene) is applied. The packaging material according to the invention consists of this laminated film, so it does not contain any additional layer. Obviously, the packaging material thus produced is a thin film-like material which must have a second, i.e., hydrophobic, surface in contact with the material to be protected. The disadvantage is that it is not kept as a film film, it can only be made from bag-like packaging material. Due to its two layers, the hydrophobic layer is located only on one of the packaging material, preferably on the inner surface thereof, so that it does not protect the product from the outside. Thin material is also harder to resist mechanical damage. It is also disadvantageous that the base layer also has a plastic content and thus has a longer degradation time.

The solution of WO 98/35885 and HU 217 347 is partly our own invention and discloses environmentally friendly packaging material for foodstuffs. The degradation time of the biodegradable container can be controlled by the properties of the film wrapping it inside and outside. It is not applicable for fertilizing plants, nutrient intake.

The object of the present invention is to overcome the shortcomings of the prior art and to develop an environmentally friendly, biodegradable packaging material for seedling placement, which, during composting, will gradually supply the necessary nutrients to the seedling, which will surely reach the individuals.

The inventive idea is based on the discovery that when the seedling is planted in a bin that breaks down, and by providing the container with a dual function, by gradual fertilization by decomposing it, the nutrients that make up the fertilizer are delivered to the individuals we can get a better deal.

In accordance with its object, the environmentally friendly packaging material of the present invention, particularly for storing oily foodstuffs, has a container baked from flour, water and additives, an outer layer enclosing the container and an inner layer comprising plastic and at least 40% starch. the outer layer being a film or film of adjustable decomposition time, comprising cellulose, plastic and at least 40% starch.

HU 225 230 Β1

A further feature of the packaging material of the present invention is that the inner layer is comprised of a film or film containing cellulose with a controlled degradation time. Typically, a field is provided between the outer layer and the container for displaying information. In one embodiment, the outer layer and the inner layer are joined together along the rim of the container.

According to an object of the present invention, the process of the present invention for the production of biodegradable packaging material, in particular for seeding and fertilizing seedlings, comprises preparing a dough from flour, water and additives, forming a container from dough and heat treating, sealing the outer and inner surface of the container. , is based on mixing nutrients that are released during composting to stimulate seedling growth.

Typically, the nutrients are composed of macronutrients, preferably nitrogen, phosphorus and potassium, and micronutrients, preferably zinc, magnesium, copper, leather, iron.

In one embodiment, the heat treatment is carried out on a strip path in a microwave tunnel. In another, molding and heat treatment are performed in a baking tool at temperatures above 160 ° C and pressures above 10 bar.

One of the waterproofing degradable layers consists of a film or film with adjustable degradation time, comprising cellulose, plastic and at least 40% starch. In another possible example, at least one of the waterproofing degradable layers is food wax.

It is also typical that 1-20% by weight of the straw is added to the dough to increase the strength of the container.

The foil is applied to the container by vacuum forming and fixed by pressing, or the film is applied to the container by powder spraying in an electrostatic chamber and then heat-sealed. The wax is applied to the container by spraying or dipping in 1-3 µm thickness.

The packaging material according to the invention has several advantages. It can be used for growing seedlings. It does not dust, it is resistant to earth and moisture from the outside. Its structure is solid and solid. The mechanical strength can be increased by adding cereal straw. During the manufacturing process, the degradation time of the packaging material can be adjusted according to the requirements. The manufacturing process is simple and inexpensive. In the case of microwave cooking, the technological time is reduced and energy consumption is reduced by about 20-50%.

Advantageously, the displaced container, like drip irrigation, delivers nutrients to the plant purposefully without human intervention, regardless of the weather. This reduces the chemical load on the soil and results in significant labor and energy savings. Seedlings get just as much additive as they need, and it will surely reach the individuals.

The invention will now be described in more detail by way of example. The attached drawing shows

Figure 1 is a sectional view of the container, a

Figure 2 is a bottom view of the container.

Figure 1 shows the container 1 which forms the tray, the outer layer 2 and the inner layer 3 of which are formed by foil. In another example, the outer layer 2 and the inner layer 3 wrap the container 1 as a film. In a further embodiment, the outer layer 2 and the inner layer 3 or one of them are wax. Figure 2 shows the container 1 and the outer layer 2. One typical size of the container 1 is 40 * 40 * 130 mm.

During the manufacturing process, the container 1 is first prepared at a pressure above 10 bar and at a temperature of 160-180 ° C using bakery technology. Recommended dough composition: 50-80% by weight of flour, 5-10% ground or fibrous cereal straw, 0.3-1.2% fat, maximum 1.5% corn starch, 0.4-1.5% sodium bicarbonate, 0.3-1.2% egg yolk, 0.5-1.2% milk powder and 0.2-1.5% nutrient composition. The solids are made up to a minimum of 10% water to 100%. Preferably, the flour is cereal flour: 2/3 BL 55 flour, 1/3 BL feed meal. The nutrient composition contains nitrogen, phosphorus, potassium macronutrients as well as zinc, magnesium, copper, boron and iron micronutrients. The amount of nutrients to be taken into consideration is the seedling to be planted, such as peppers, tomatoes, and even the condition of the land.

The ingredients are kneaded and baked in a two-piece baking mold of the desired shape at a temperature of 160-180 ° C with a closing pressure of 10 bar. Of course, the container can also be made with other ingredients, such as wheat groats. Flour can also be made from any cereal or seed. The container may be colored.

In another example, the kneaded mass is placed on a conveyor belt, whereby, with continuous progress, a mold is formed to produce the desired shape. The mold is then placed in a 1-8 meter long tunnel furnace. In the tunnel 200-400mm segments, 400-1200W semicircular magnetrons provide a homogeneous microwave field. When using a microwave oven, the process time is reduced and energy savings are 20-50%.

The finished container 1 is then coated with a plastic-containing layer in a known manner. Before wrapping, it is possible to label the container as needed. The material of the outer layer 2 and the inner layer 3 has a controlled degradation time and contains 40-85% starch, 3-10% cellulose, 2-8% polyethylene. By increasing the thickness of the film or film and / or reducing the starch content, the degradation time can be increased. Various technologies are known for depositing the coating. The coating may be applied in solution, in powder form, in the form of a film or in the form of a sheet. The powder application can be by spray gun, swirling fluidized bed or thawing.

Two technologies were found to be optimal for the coating: vacuum deposition of film and powder coating and heat treatment of film. By film is meant a product made by plastic manufacturing technology, preferably by extrusion or casting and rolling. Film refers to the layer produced during the manufacture of the packaging material. The film and especially the

The outer layer 2 and the inner layer 3 with a 230 Β1 foil material also improve the mechanical properties of the container.

During vacuum forming, the film, preferably 40-60 µm thick, is placed inside and out of the container 1, the air is drawn from the container 1 and the film, and the film is fixed by pressing. During powder spraying, the container 1 is sprayed with a spray gun in a film of 20-40 μπι thickness in an electrostatic chamber, which is fixed in an oven, generally at a temperature of 170-190 ° C.

As another example! In the process, the waterproof outer layer 2 and the inner layer 3 are food waxes known in the art but not yet used in rigid wall packaging materials. This wax layer also improves the mechanical properties of the container 1, but only by about 60-70% relative to the film. According to the requirements of use, the wax is applied by spraying to the inner or outer surface of the container 1 in a molten state at a thickness of about 1-3 µm. In another example, both the outer layer 2 and the inner layer 3 are wax. In this case, the tray 1 is immersed in the molten wax to apply the decomposable waterproofing layer.

During use, the seedling should be placed in the ground with a container at the appropriate time. Depending on the thickness of the film or film and the starch content, the container is biodegraded, composted, and gradually releases the nutrients, macro and micronutrients it contains, which are activated directly at the root formation as a concentrated source of nutrients.

The process of the present invention provides a biodegradable packaging material for seedling and fertilization.

Claims (10)

PATENT CLAIMS CLAIMS 1. A method for producing biodegradable packaging material, in particular for seeding and fertilizing seedlings, comprising forming a dough from flour, water and additives, forming a container from the dough by forming and heat treating, providing a waterproofing layer on the outer and inner surface of the container. the nutrients released during composting are added to the dough to stimulate seedling growth. Process according to claim 1, characterized in that the nutrients are macronutrients, preferably nitrogen, phosphorus and potassium, as well as trace elements, preferably zinc, magnesium, copper, leather, iron. Process according to claim 1 or 2, characterized in that the heat treatment is carried out in a strip path in a microwave tunnel. Process according to Claim 1 or 2, characterized in that the forming and heat treatment are carried out in a baking tool at a temperature above 160 ° C and a pressure above 10 bar. 5. A process according to any one of claims 1 to 3, characterized in that at least one of the water-impervious degradable layers is a film or film with a controlled degradation time comprising cellulose, plastic and at least 40% by weight of starch. 6. A process according to any one of claims 1 to 5, characterized in that at least one of the waterproofing degradable layers is food wax. 7. Method according to any one of claims 1 to 3, characterized in that 1 to 20% by weight of straw is added to the dough to increase the strength of the container (1). 8. Method according to any one of claims 1 to 3, characterized in that the film (1) is applied to the container by vacuum forming and secured by pressing. 9. A method according to any one of claims 1 to 3, characterized in that the film is applied to the container (1) by powder spraying in an electrostatic space and then heat-sealed. 10. Method according to one of claims 1 to 3, characterized in that the wax is applied to the container (1) by spraying or dipping in a thickness of 1 to 3 µm.