CZ303636B6 - Biocontainer for collecting biowaste and municipal waste - Google Patents

Abstract

In the present invention, there is disclosed a biocontainer for collecting biowaste and municipal waste, especially being performed as a current shopping bag with a secondary function of a biocontainer, said biocontainer being formed by a bag made of polymeric material foil being provided with a system of through holes, cutouts or cuts. The system of through holes, cutouts and/or cuts in said polymeric material foil is situated at minimum distance of 0.1 to 0.4 multiple of the bag height from the bag bottom edge. The polymeric material of the biocontainer bag is represented either by biologically degradable or oxidative degradable polymeric material.

Description

Technical field

BACKGROUND OF THE INVENTION The present invention relates to a biocontainer for the collection of biowaste and municipal waste, and more particularly to a biocontainer configured as a carrier shopping bag which, upon completion of its primary use, fulfills the secondary function of the biocontainer.

BACKGROUND OF THE INVENTION

For the collection of biowaste destined for composting, special biocontainers are used mainly in households. These are in the form of a bag, usually in a size suitable for placing in a waste bin. Such a container is closed after filling either by a knot at the end or is provided with a tightening band which is guided in a tunnel at the open end of the bag container. Existing bio-containers are supplied either as loose bags, possibly blocked, or as a perforated bottom welded hose wound on a roll. In this way, primarily, bag-shaped containers are produced with a free end which are closed by a knot. Bags with a tightening strap are mainly produced as loose.

For further use (composting in industrial composters), these products must be made of materials that have the same composting properties as biowaste, that is, they also decompose into water, carbon dioxide and an organic residue. They are biodegradable polymeric materials from the group comprising polylactides, for example, polylactic acid (PLA) modifications, modified starches and copolyesters.

In this respect, a carrier bag with secondary application as a container for collecting waste, in particular bio-waste and municipal waste according to the published CZ patent application, is also known.

PV 2009-853, which consists of a bag made of a foil of a biodegradable or oxodegradable polymeric material, the bag being further provided with a closure element or elements in the upper part, in addition to the ears for easy grip.

However, the disadvantage of all known biocontainer solutions, including the solution according to PV 2009-853, is the different decomposition time of biowaste and packaging material (biocontainer). After placing in the composter, the temperature of the deposited material rises to 60 to 70 ° C within a few minutes. At this temperature, under the influence of moisture, oxygen and microorganisms, decomposition takes place in the presence of oxygen - aerobic and compost is formed. However, if the biomaterial (biowaste) is enclosed in a container which decomposes slowly (according to ISO 13432, after 180 days it decomposes in industrial composting conditions 80% of the material 40 l), an oxygen-free decay occurs at elevated temperature. This process is undesirable and significantly reduces the value of the compost produced.

For the collection of other municipal waste, which is currently further processed mainly by landfilling, household containers use bag containers of the same shape as for biowaste, supplied in the same form (loose, tear-off, with tightening strap). These are made of conventional polymers - especially polyethylene in all modifications - LDPE, HDPE, LLDPE, mLDPE and mixtures thereof; to accelerate decomposition in landfill, possibly with modification with oxodegradable additives. The disadvantage of using these bags is that the municipal waste is of very different and varied shapes (eg shaped plastic containers, cans) and when the bag is closed, both when using a bag with a tightening strap and loose, the shape does not adapt when closed bag volume of closed objects. The bag is "inflated" with a large unused volume.

After its disruption, both in the landfill and during composting, there is a bulk-spilling process that can last for several years, especially in the landfill, causing considerable difficulties in the efficient use of the landfill.

Another disadvantage of both types of bags (for biowaste and municipal waste) is that they are dangerous products from the safety point of view (danger of suffocation on the head, even in the case of children's play). Therefore, they must be kept out of the reach of children and printed on them. Since these bags are made for use in several countries, they should be labeled in the languages of all wires where they will be used, which is not always easy to ensure.

A disadvantage of the existing solutions is also the single use of the container, only for the collection and disposal of waste. Current container materials, mainly for the collection of biowaste, are special polymers with a price up to 5 times higher than the price of standard polymers. Commonly used to improve the economy of reuse, such as for carrier bags, is not possible in the case of waste collection with conventional bio-containers.

SUMMARY OF THE INVENTION

The biocontainer for the collection of biowaste and municipal waste according to the invention contributes to the elimination of the abovementioned drawbacks, in particular in the form of a carrying bag with a secondary biocontainer function (consisting of a bag of polymeric material having a closure element or elements at its upper edge and welded plastic ears easy grip). SUMMARY OF THE INVENTION The bag of biocontainers is made of a foil of a biodegradable or oxodegradable polymeric material, which is provided with a system of through holes, cuts and / or cuts with a minimum distance of 0.1 to 0.2 of the bag height from the bottom edge bag.

The set of through holes is preferably a set of circular holes with a diameter of 0.5 to 2 mm, the density of these holes being 1 to 2 per cm ² . The individual circular openings may have stiffening patches formed on their circumference.

In another variation, the sheet of polymeric material of the biocontainer bag is provided with a set of circular openings having a diameter of 2 to 20 mm, preferably 5 to 10 mm, the openings being arranged in a rhombic or rectangular shape with spacing between the center of the openings 4 to 6 times the diameter.

Another possibility is a set of cuts in the longitudinal direction of the bag or obliquely with respect to this direction, the individual cuts having a length of 5 to 20 mm and arranged in rows with longitudinal gaps of 5 to 20 mm and row spacing of 20 to 50 mm.

The film of polymeric material can also be provided with a cross-cut or Y-shaped die-cut system with a length of individual cuts of 5 to 10 mm.

Preferably, a plurality of openings, slits and / or cuts in the film of polymeric material may be formed only at the top of the bag of the bag, with a minimum distance of 0.1 to 0.2 of the bag height from the bottom edge of the bag.

The polymeric material of the biocontainer bag may preferably be a biodegradable or oxodegradable polymeric material. The biodegradable polymeric film of the biocontainer bag film is a material selected from the group consisting of polyactylacids, modified starches and copolyesters. The oxodegradable polymeric material of the biocontainer bag film is a material based on one of the types of polyethylene - LDPE, LLDPE, mLLDPE or a mixture thereof, additive with an oxodegradable additive, optionally with the addition of inorganic fillers.

Disruption of the integrity of the biocontainer bag foil according to the invention through openings, cuts or cuts results in improved utility properties of biocontainers in landfills due to the possibility of interaction of the bag contents and the surrounding environment when stored in compostom and consequently harmonization of biodegradation and biodegradable decomposition material without oxygen (rotting process). This is a new feature of a biocontainer resulting from the use of a bag, which is both made of a material with biodegradable or oxodegradable properties and is provided with a set of through holes, cuts and / or cuts with a minimum distance of 0.1 to 0.2 bag height from the bottom bag. Another benefit is the elimination of deficiencies resulting from the dangerous use of bag containers (see the aforementioned danger of suffocation when placed on the head, for example, in a child's play). Creating systems of through holes, cuts and / or cuts in the bag body area with a minimum distance of 0.1 to 0.2 bag height from the bottom edge of the bag eliminates another problem: when storing biowaste, sometimes a low-viscosity fraction - a liquid that would leak from holes and cuts could pollute the surroundings.

Improvement of the environmental and economic impacts of application of these products is due to the fact that the upper part of the bag product with a tightening strap can be provided with foil ears (soft loop). For such a product, its primary (primary) use is an application as a carry-over shopping bag (even for multiple uses) and a subsequent secondary function of use as a bio-container for bio or municipal waste.

DETAILED DESCRIPTION OF THE INVENTION

Example 1

The biocontainer in the exemplary embodiment is in the form of a carrying plastic bag, manufactured as a welded plastic foil bag, of dimensions 350 mm (width) and 460 mm (height), with a bottom tab

50 mm. At the periphery of the upper edge, this bag has a welded tunnel with a width of 40 mm, in which a tape of plastic or textile material with a width of 15 mm is placed. The upper edge of the bag is also equipped with welded plastic ears 0.110 mm thick for easy grip and transfer. The container material is a 0.080 mm thick film of a biodegradable polymer based on polylactic acid (PLA) derivatives. The bag body is provided with a set of circular openings of 1 mm diameter, spaced 10 mm apart in both the width and length directions of the container with a minimum distance of 0.1 bag height from the bottom edge of the bag.

Example 2

The bio-container is again in the form of a carrying plastic bag, made as a welded plastic foil bag, with dimensions 350 mm (width) and 460 mm (height), with a bottom tab of 50 mm. At the periphery of the upper edge, the bag has a welded tunnel of a width of 40 mm, in which a tape of plastic or textile material with a width of 15 mm is placed. The upper edge of the bag is further equipped with welded plastic ears 0.110 mm thick for easy grip and transfer. The material of the container is an oxodegradable polymer film which contains 85% by weight of LDPE with a density of 918 kg / m ³ , 5% by weight of the add-X oxodegradable concentrate from BIOTECH and 10% by weight of micronized limestone.

The body of the bag is provided with a set of cross sections in the shape of a cross with arms length of 5 mm. The bottom of the bag body is at a distance of 0.2 height of the bag (ie 92 mm) from the bottom edge of the bag without any intersections.

Example 3

The biocontainer in the form of a carrier plastic bag is made in the dimensions, material and basic design of the tunnel and plastic ears according to Examples 1 or 2.

The body of the biocontainer bag is provided with a set of circular openings with a diameter of 1 mm, spaced 10 mm apart in both the width and length direction of the container with a minimum distance of 0.1

-3GB 303636 B6 bag height from the bottom of the bag. The openings have stiffening flanks on their circumference (note: the openings with the tumblers are made by hot needle piercing technology).

Example 4

The biocontainer in the form of a carrier plastic bag is made in the dimensions, material and basic design of the tunnel and plastic ears according to Examples 1 or 2.

io The body of the biocontainer bag is equipped with a set of cuts in the longitudinal direction of the 10 mm bag. These cuts are arranged in rows with longitudinal gaps of 20 mm and a pitch of 25 mm. The lower part of the bag body is at a distance of 0.2 height of the bag (ie 92 mm) from the lower edge of the bag is without cuts.

Example 5

The biocontainer in the form of a carrier plastic bag is made in the dimensions, material and basic design of the tunnel and plastic ears according to examples I or 2.

The body of the biocontainer bag is provided with a set of circular holes with a diameter of 5 mm and these holes are arranged in a diamond shape at a distance of the centers of the holes equal to 25 mm. The bottom of the bag body is at a distance of 0.2 bag height (ie 92 mm) from the bottom edge of the bag without holes.

Claims (8)

PATENT CLAIMS 1. A biocontainer for the collection of biowaste and municipal waste, in particular a carry-over shopping bag with a secondary biocontainer function comprising a bag of a polymeric film having a closure element or elements at the upper edge and welded plastic ears for easy grip, The bag of the biocontainer is made of a foil of biodegradable or oxodegradable polymeric material which is provided with a system of through holes, cuts and / or cuts with a minimum distance of 0.1 to 0.2 of the bag height from the bottom edge of the bag. Biocontainer according to claim 1, characterized in that the foil of the polymeric material 40 is provided with a set of circular openings with a diameter of 0.5 to 2 mm, the density of these openings being 1 to 2 per cm. Biocontainer according to claim 2, characterized in that the individual circular openings have stiffening patches formed on their circumference. Biocontainer according to claim 1, characterized in that the polymeric material film is provided with a set of circular openings with a diameter of 2 to 20 mm, preferably 5 to 10 mm, the openings being arranged in a diamond or rectangular shape with a center distance of 4 up to 6 times the diameter. A biocontainer according to claim 1, characterized in that the polymeric material film is provided with a set of cuts extending in the longitudinal direction of the bag or obliquely thereto, the individual cuts having a length of 5 to 20 mm and arranged in rows with longitudinal gaps of 5 to 20 mm. 20 mm and row spacing 20 to 50 mm. -4 CZ 303636 B6 A bio-container according to claim 1, characterized in that the sheet of polymeric material is provided with a set of cross-shaped or Y-shaped die-cuts with a length of individual cut-off branches of 5 to 10 mm. 5 The biocontainer of claim 1, wherein the biodegradable polymeric film material of the biocontainer bag is a material selected from the group consisting of polylactic acid derivatives - polyactylacids, modified starches, and copolymer esters. Biocontainer according to claim 1, characterized in that the oxodegradable polymeric material of the biocontainer bag film is a material based on one of the types of polyethylene LDPE, LLDPE, mLLDPE or a mixture thereof, additive with an oxodegradable additive, optionally also with inorganic fillers.