KR20100010615A - Biodegradable forming receptacle - Google Patents

Abstract

PURPOSE: A biodegradable container is provided to ensure mechanical properties, biodegradation, profitability, non environmental contamination and antifouling property. CONSTITUTION: A biodegradable container comprises ice hulls 60~70 weight%, starch 15~20 weight%, illite 5~10 weight%, sugar 3~5 weight% and emulsion 5~10 weight%. The emulsion is applied on one or both sides of a biodegradable container containing rice hulls, starch, and illite. The emulsion is emulsion HA-365. The paper coated with the emulsion is attached to one or both sides of a natural container.

Description

Biodegradable Forming Receptacle

The present invention relates to a biodegradable natural container that is rapidly biodegradable without environmental pollution when the container is used and then disposed of by producing a container with the main components of natural chaff, starch, and illite. More specifically, the present invention relates to a container made of natural chaff, illite, and starch, which is a natural polymer, and a biodegradable natural container in which a biodegradable emulsion resin layer is formed on one or both sides of the container.

With the development of the industry, the consumption of instant food and fast food is increasing due to the increase of income level and the change of dietary life due to the nuclear family, and these disposable foods are easy to produce and cheap disposable containers for hygienic and small unit packaging. The use of is increasing.

When using pottery or glass as a container, it is not only difficult to store and secure the place, but also due to the high breakage rate, the hassle of washing after use, the decrease in productivity, and the high manufacturing cost, most disposable containers are used for the packaging of instant foods and small foods. I use it.

In addition, the use of disposable containers is increasing in fast food stores, convenience stores and vending machines by using disposable containers made of paper or foamed resin that can be easily discarded after use.

As the disposable container, a product manufactured by molding a foamed polystyrene, which is a synthetic resin, into a sheet-shaped foam paper having a predetermined thickness, then compressing the mold in a predetermined mold mold with a vacuum device and rapidly removing internal air, is most widely used. In addition, there are paper cups and paper trays made using a base paper prepared by coating polyethylene and polypropylene, which are synthetic resins, on paper.

These disposable containers are used every year due to a number of excellent advantages, but environmental pollution due to increased use is also increasing. When the disposable container is disposed of on land, it is hardly decomposed by the microorganisms present in the soil. Incineration also generates large amounts of toxic gases such as dioxins and carbon monoxide, which are known to have global warming and harmful effects on the human body.

In order to remedy this problem, a number of prior arts, which are characterized by manufacturing a foamable disposable container using starch, have recently been filed and put into practical use.

When starch is the main ingredient, the price of grains such as corn and potato starch produced by global warming is high, and the cost of disposable containers is increased due to economic efficiency in bio oil production due to coping energy due to rising crude oil price. There is a problem that cannot be met.

In addition, since the strength of the container is not enough to form a starch alone, the addition of wood flour is a situation that raises the cost of raising the cost.

As described above, starch containers are almost completely decomposed by microorganisms present in the soil when they are landfilled without environmental pollution, and can be continuously produced in starch. Due to the disruption of raw material supply due to the decrease in the productivity of agricultural products due to the temperature change and the recent development of bio oil production technology, the price rise due to more use in expensive oil production is unable to meet the price as a raw material for containers.

The present invention aims to solve this problem.

Biodegradable polymers that are similar in nature to conventional synthetic resins and easily degraded by natural microorganisms include aliphatic polyesters through chemical synthesis, polyhydroxy alkanoates and polyhydroxy butylates by fermentation, and natural Composites of cellulose or starch, which is a polymer.

There is a growing interest in biodegradable polymers containing starch, which is abundant in nature and inexpensive, and is being actively researched.

Chaff is a by-product of agriculture, and in Korea, 1 million tons are produced annually, and chaff has 35-46% crude fiber, 22-35% soluble sugar, 13-21% ash, and 2-3 protein. The ash from the rice hull is almost 90% of the silicon body and contains a lot of potassium, calcium and magnesium.

These chaff are harmless to the human body and have recently been studied to exhibit cancer toxin detoxification activity.

Starch is the most easily and cheaply obtained natural polymer in nature. It is mainly obtained from corn, potato, tapioca, sweet potato, wheat, rice, etc., and glucose is composed of α-1,4 glucoside linkage. It consists of amylopectin which has 4 glucoside bond and (alpha) -1,6 glucoside bond, and generally contains 0 to 28% of amylose.

Starch has not only a large difference in physicochemical properties according to its source and variety, but also physical properties are greatly influenced by interaction with various components during processing and storage. Therefore, crosslinking, ether, ester, acid treatment , Modified and grafted modified starch is used.

Conventional methods for producing biodegradable containers are simple in manufacturing method and have similar physical properties to expanded polystyrene, but have had problems due to the addition of hardly degradable raw materials among additives used in addition to natural polymers, and have difficulty in practical use because of their high price. It was a situation. German biotech has developed a product using potato starch and tapioca starch, but it is in the commercialization stage. However, it is not economical in terms of water resistance, mechanical properties and manufacturing cost, and it is also difficult to supply raw materials in Korea.

In order to improve these problems, the nation is developing biodegradable polymer technology by improving the environmental technology to the level of G7 country as a biodegradable polymer-based business and investing national research funds for the sustainability of the environment. As a measuring method, ISO 14855 method of international standard or KS M 3100-1 method of international standardization is applied, and biodegradation is over 60% (absolute value of over 42% decomposition) for the first 45 days, Biodegradation values over a 180-day period stipulate 90% or more (absolute 63% or more) degradation of the reference material.

Ministry of Environment based on degradable synthetic resin material. In accordance with the standards set forth by the Ministry of Commerce, Industry and Energy (2003-64), starch-based plastics are made of synthetic resins made by simply mixing starch with existing PE, PP, and PS and adding decomposition accelerators. It was called synthetic resin, and it was considered to be in the early stage because of its low price and practical use right now, but it was basically avoided in developed countries because the synthetic resin is only fine and it is not completely decomposed. Doing. In addition, products coated with polyethylene and polypropylene are generally known to be harmless to humans, but environmental hormones are known to be generated when exposed to high temperatures, such as when used in a microwave oven, and attention is therefore required.

In addition, natural polymer-based plastics are made from natural polymers extracted from animals and plants (starch, cellulose, pectin, lignin, chitin, etc.) as the main raw material, and have the advantage of being completely decomposed, but have the disadvantage of uneven physical properties and weak strength. .

Biodegradable synthetic resin is a synthetic resin that is decomposed in a few weeks in a natural state by microorganisms or UV rays. It is 1.6 to 4 times more expensive than conventional synthetic resins and has some weak physical properties. It is developed by physical properties.

However, the conventional biodegradable synthetic resin has a disadvantage in that the physical properties are not uniform and the strength is weak due to the natural polymer-based plastic as described above with the increase of the manufacturing cost according to the expensive additives by adding a plurality of mixtures.

The present invention has been made to solve the above problems, to promote the mechanical properties, biodegradability and economics of the biodegradable foam container, the biodegradable natural container having high biodegradability and non-environmental pollution when discarded after use of the container It aims to provide.

Still another object of the present invention is to satisfy environmental convenience, economic feasibility, and convenience of disposable containers by reusing a large amount of byproduct chaff generated by farming.

In order to achieve the above object, the present invention, 15 to 20% by weight 60 to 70% by weight starch, 5 to 10% by weight sugar, 5 to 10% by weight sugar and 5 to 10% by weight emulsion It is characterized by providing a biodegradable natural container containing. In order to achieve the above object, the present invention, 60 to 70% by weight chaff crushed with 150 to 500 mesh starch 15 to 20% by weight, illite 5 to 10 It is characterized by providing a biodegradable natural container containing 3 to 5% by weight sugar and 5 to 10% by weight emulsion.

The present invention has the advantage that the water resistance is strong by adding a biodegradable synthetic resin emulsion without attaching coated paper such as paper to the inner and outer surfaces of the container. In addition, because it is biodegradable, it can solve environmental problems such as air pollution and landfill pollution due to incineration, and can be recycled as a feed and compost for animals and plants.

The chaff of the present invention serves as a natural pulp to improve the moldability and durability of the container together with the starch. However, excessive use of rice hull is not preferable because it is difficult to foam during the manufacturing of the container and the container itself is hardened, so that biodegradation is difficult when the container is disposed of in a natural state.

Since sugar has a high viscosity of the solution, it is possible to increase the mechanical properties of the container at the time of forming the container, and in particular, when used with chaff powder and starch, gelation can be promoted and the viscosity of the container can be increased.

The emulsion used in the present invention may be contained as one component of the container, or may be applied to one side or both sides of the manufactured container. And the water resistance of the container can be increased by applying the emulsion-coated roe deer to one side or both sides of the container.

The emulsion used in the present invention is a biodegradable synthetic resin emulsion that is non-tacky, waterproof and harmless to humans.

The emulsion used in the present invention contains 30 to 50% by weight of the synthetic resin emulsion, 1 to 5% by weight of petroleum protein, 0.01 to 1% by weight of surfactant and 30 to 60% by weight of water. In the present invention, emulsion HA-365 (manufactured by Sacred Land) was used.

Hereinafter, the present invention will be described in detail.

As a method for preparing a starch derivative, it may be prepared using the method of USP 2,613,206 or modified as necessary. That is, water is added to the starch to prepare a starch suspension, followed by stirring for 10 to 20 minutes. At this time, the allowable concentration of the total solids is 10 to 50% (w / v), and 25 to 45% (w / v) is appropriate in terms of reaction efficiency, and the reaction temperature is suitably 20 to 45 ° C.

Subsequently, the pH of the starch suspension was adjusted to a range of 5.5 to 12.0 using sodium hydroxide, sodium carbonate, calcium hydroxide and alkali salts thereof as a reaction catalyst, and the reaction was neutralized with 15% HCl after reacting for 0.5 to 72 hours. To dry. At this time, the reaction time is suitably 1 to 24 hours.

The chaff is then ground into 150-500 mesh. Starch, ground chaff, elite, sugar and emulsion prepared in the kneader are added, followed by adding hot water at 80 to 100 ° C., followed by mixing dough.

15 to 80% (w / w) of water is added to the prepared paste and mixed for 10 to 60 minutes. Thereafter, the mixture is put into a heating press molding machine which is preheated to 100 to 250 ° C., and a pressure of 0.1 to 10 Pa (N / m 2) is applied, followed by molding for 0.5 to 10 minutes to prepare a biodegradable natural container.

The molded natural container is taken out, trimmed, and then cooled to obtain a natural container.

Care should be taken when manufacturing biodegradable natural containers because the temperature, pressure and molding time of the molding machine are closely related to each other. In other words, the molding time is increased in a state where the internal temperature of the molding machine is low, and if a constant pressure is not applied during molding, the foaming is not performed. If the pressure is high, the molding is excessively foamed and the moldability is lowered.

The emulsion used in the present invention may be applied to one side or both sides of the container, in which case the application method may be a conventional method.

Along with this, the emulsion used in the present invention is coated on the presser in advance and the pressurized emulsion is formed on one side or both sides of the container, and the configuration at this time may be configured by a conventional method such as adhesion or compression.

In this embodiment, the mold heated to about 180-200 ° C. is filled with a certain amount of the mixture provided above between the emulsion-coated upper and lower presser and the presser, which is compressed in the mold and maintained for about 80 to 120 seconds. The mixture between the papers is spread out to form a container in which the mixture is stacked between the layers.

 And the molding container withdrawn from the mold is to obtain a natural container by going through the trimming and cooling process as known.

The natural container of the present invention completed by the above is preferably used at about 70 ℃ and the present invention has been described through the embodiments, it is understood that those embodiments can be changed and improved without departing from the claims of the present application. Ramen would be self explanatory.

Claims (4)

A biodegradable natural container comprising 60 to 70% by weight chaff, 15 to 20% by weight starch, 5 to 10% by weight illite, 3 to 5% by weight sugar and 5 to 10% by weight emulsion. Biodegradable natural container, characterized in that the emulsion is applied to one or both sides of the biodegradable natural container consisting of chaff, starch, illite and sugar. The method according to claim 1 or 2, The emulsion is a biodegradable natural container, characterized in that the emulsion HA-365. The method according to claim 1 or 2, Biodegradable natural container, characterized in that for attaching the emulsion-coated roe deer on one or both sides of the natural container.