JP4182755B2 - Production method of biodegradable pulverized plant fiber molded product using starch, pulverized plant fiber or organic fertilizer treated with raw garbage - Google Patents

Description

[0001]
Technical field
The present invention is based on pulverized plant fibers for the purpose of obtaining a composition for molding an article having the same moldability as a synthetic resin without using a synthetic resin. Of biodegradable pulverized plant fiber molded products It relates to a manufacturing method.
So this Obtained by manufacturing method Molded products are buried in the soil, or when they are discarded or left in the field, they are naturally decomposed by microorganisms and ultraviolet rays, so they are self-cleaned without any environmental load. In addition, it uses plant fibers such as rice husks that are discharged with agricultural production, plant waste that is discarded, etc., and is used as a material that does not affect the environment.
[0002]
Background art
Conventionally, synthetic resin is the main material widely used for containers and packaging materials. Synthetic resins have excellent moldability, are inexpensive and can be mass-produced, and because of their usefulness, are represented by vinyl chloride resin, polyethylene, and urea resin worldwide, including industrial materials, and in everyday life. Synthetic resins are used in large quantities in household goods such as tableware.
In addition, plastics that are decomposed by microorganisms (so-called biodegradable plastics, nicknamed green plastics, etc.) are added to this synthetic resin with a function of decomposing under natural environment. For example, low-density polyethylene containing starch has been proposed, and films, packaging materials, food bags and the like using this have been known (Japanese Patent Publication No. Hei 3-2229046, Japanese Patent Publication Hei 4-146952, Japanese Patent Publication No. 4-325526).
[0003]
In addition, it has been proposed that a material having molding characteristics replacing synthetic resin is formed by using vegetable fiber as a raw material, such as tableware and flower pots, and the surface is coated with varnish or lacquer as a waterproofing agent. In addition, containers made of plant fiber pulp (mainly used paper raw materials) have been proposed.
In addition, it has been proposed that ground rice husk powder is used as a raw material, hydrous starch is heated, gelatinized, mixed and stirred, pressure-molded with a heating die, and a plastic film is formed on the cover layer. (Japanese Patent Publication No. 7-205120).
However, synthetic resins used in large quantities have excellent heat resistance and corrosion resistance, are not easily decomposed by microorganisms, and are durable and long-lasting. However, these products are buried in the soil, outdoors, etc. When it is disposed of, it is not decomposed by ultraviolet rays, microorganisms, etc., and remains for a long time without being decomposed, altered or destroyed, and accumulates. This characteristic causes environmental pollution.
[0004]
Some of them are degraded by microorganisms, but the degradation takes a very long time, and the same problems that adversely affect the environment are the same. The biodegradable synthetic resin as a solution to the above-mentioned problems cannot be mass-produced, is inferior in molding suitability, and has a higher cost than conventional synthetic resin products. There was a problem that was difficult to spread.
In addition, if these synthetic resin products are incinerated, problems such as generating high-temperature gas and causing early damage to the incinerator, or generating harmful gases such as daoxin, will cause serious adverse effects on the environment and human health. To do. Also, serious environmental problems such as leakage of so-called environmental hormones (endocrine disrupting chemical substances) have occurred from vinyl chloride.
From the above, the flooding and disposal / disposal problems of this large amount of synthetic resin products are environmental improvement issues that should be solved early in the world. The mass use of synthetic resins does not respond to the current social demands that products supplied to society by society must provide products that do not place an environmental burden or are few.
[0005]
Furthermore, from the viewpoint of resource conservation, synthetic resin raw materials are so-called fossil fuels, and the large consumption of this is due to the industrial economic policy of Japan, which imports all of the world's energy problems and usage from overseas. From the viewpoint, it is not preferable.
On the other hand, the treatment of surplus or waste generated from agricultural production is also becoming a social problem. Since ancient times, Japanese agriculture has developed and used surplus or waste such as rice husks, rice straw, etc. that are generated during the production and processing of fertilizers. A circulation system that decomposes and returns naturally was formed, and a self-contained precise circulation system that does not generate waste was adopted. However, in recent years, due to changes in the socio-economic environment in rural areas, rice husks, rice straw, etc. are hardly used, and most of these are incinerated as surplus or waste.
[0006]
Therefore, these surplus or incineration smoke that incinerates waste has an adverse effect on the environment and is becoming a social problem in rural areas. In addition, instead of using synthetic resin, containers made of plant fiber pulp (mainly used paper raw materials) have been proposed and used, but surely made containers are products that are naturally decomposed, In the manufacturing process, a large amount of water is used at the paper making stage, and a large amount of fine fibers are mixed into the wastewater, which flows into the river together with the wastewater, causing environmental pollution.
In addition, it has been proposed to mold tableware, flower pots, etc. with plant fibers and apply varnish or lacquer as a waterproofing agent on the surface, but varnish or lacquer is a material with a specific odor. In addition, there are also problems such as undesirable inclusion of substances harmful to the human body.
[0007]
Disclosure of the invention
In order to solve the above-mentioned problems, the present invention is an alternative material that does not use a synthetic resin, but is decomposed by microorganisms when buried in soil or left outdoors, and is almost equivalent to a synthetic resin. For the purpose of obtaining a composition for molding an article having moldability, a composition that is almost ideal is obtained by using pulverized plant fibers derived from nature as a main material.
This invention Obtained by the manufacturing method When an article is molded with a composition, it has an appearance similar to that of a synthetic resin, has excellent moldability, and is embedded in the soil or discarded in the field. The above-mentioned problems have been solved with a composition that is rapidly decomposed and destroyed by the action of microorganisms and is naturally reduced and becomes a soil conditioner and fertilizer in the soil.
[0008]
That is, this invention Articles obtained by the manufacturing method Is Of mixture To 100% by mass of the composition, 25 to 85% by mass of pulverized plant fibers, 5 to 70% by mass of flour, and 3 to 50% by mass of binder are added and mixed, and 30 to 35% by mass with respect to the total mass of the mixture. Of water and kneading the mixture to a moisture content of 20-25. mass % Of the above-mentioned pulverized plant fiber characterized in that it is press-molded with a mold heated to around 150 ° C. with a load of 10 to 100 tons, and the main component is the pulverized plant fiber described above It is a molded product, and the pulverized plant fiber is rice husk, rice straw, or other plant fiber, and is a molded product mainly composed of the pulverized plant fiber described above.
[0009]
the above The pulverized plant fiber is a molded product mainly composed of pulverized plant fiber having a size of 1 mm or less.
Wheat flour is also a molded product mainly composed of the above-ground pulverized plant fiber, which is a non-heated or heat-treated flour, medium flour or strong flour. A binder can be made into the said molded article combining 60-65 mass% of vegetable oil, 20-30 mass% of alcohol, and 5-20 mass% of shellfish powder with respect to 100 mass% of binders. Furthermore, it can also be set as the molded article which top-coated with the topcoat material on the surface of the said molded article. The top coating material can be a binder, fats and oils, and a synthetic resin.
[0010]
And The invention of the method for producing a molded product is based on 25 to 85% by mass of one or more pulverized plant fibers based on 100% by mass of the composition, and 5 to 45% by mass of flour and 3 to 50% of binder. Add 30% by mass to make a mixture, add 30-35% by mass of water to the total mass of the mixture, knead to give a moisture content of 20-25 mass %, Then an appropriate amount of the composition was put into a mold heated to around 150 ° C., and pressed with a load of 10 to 100 tons with the mold. This is a method for producing a molded product using pulverized plant fibers as a main material.
In addition, the pulverized plant fiber of the main material having a high water content is 5% water content. mass Adjust to around%.
The pulverized plant fiber is used with a size of 1 mm or less. If the size of the pulverized product exceeds 1 mm, the skin of the molded product becomes rough, and the strength of the molded product becomes weak. Of course, it is needless to say that it can be finely pulverized and used as a powder.
In particular, it is most preferable that the size of the pulverized plant fiber is 30 to 40 microns, and a molded product using this has a smooth bronze-like appearance and feel.
[0011]
Although the addition amount of this pulverized vegetable fiber was 25 mass%-85 mass% with respect to 100 mass% of compositions, when less than 25 mass%, the intensity | strength of a molded article will become weak and it will exceed 85 mass%. Since the amount of the plant fiber is too large and the strength of the molded product is weakened, it is preferable to set this range in practical use.
Wheat flour is a weak flour, medium flour, and strong flour. Shi The non-heated or heat-treated one is used. The addition amount of this flour was 5% to 70% by mass with respect to 100% by mass of the composition. However, if it is less than 5% by mass, the adhesive fixing of the raw material becomes weak, and if it exceeds 70% by mass, the amount of flour Since there are too many, the adhesion fixation of a raw material will become weak, and it is preferable to make it into this range practically.
[0012]
Next, the additive amount of the binder is 3% by mass to 50% by mass with respect to 100% by mass of the composition. However, if the amount is less than 3% by mass, the adhesive fixing of the raw material becomes weak, and if it exceeds 50% by mass, the binder is added. This amount is preferably within this range, because the amount of is too much and the adhesive fixing of the raw material becomes weak.
This invention Method The main component of the composition may be other plant materials, but an inexpensive composition can be provided by using surplus or waste such as rice husks, straws, etc. discharged with agricultural production. Moreover, the organic fertilizer which processed raw garbage can be used. Therefore, an inexpensive material that is readily available can be used as the main material.
This invention Obtained by the method When the molded product is buried in the soil or left in the field, it will be decomposed by microorganisms and decayed by ultraviolet rays. The time required for this will depend on the type, nature and nature of the pulverized plant fibers. Combination of various factors such as the proportion of the three main ingredients in the composition, molding pressure, thickness of the molding, such as the size of the main ingredient, the quality and quantity of the wheat starch to be added, and the amount of binder Therefore, it is extremely reasonable because the composition and the molded product can be made by designing the combination and combination of materials in advance according to the usage of the molded product.
[0013]
As the main material of the present invention, it is preferable to widely use plant fiber materials, which are mainly surplus or waste, because the raw material costs are high. Examples of main materials include the following.
The ground plant fiber is cereal flour, rice bran, rice husk, straw, wheat straw, buckwheat, coffee bean extract residue, green tea, sencha, roasted tea, tea, oolong tea and other tea leaf extract residue (so-called tea tea), rush, sawdust , Nori, okara, soy milk cake, sake lees, shochu, beans, edamame, potato medium residue, wood chips, charcoal, corn core, cut weeds, kenaf, vegetable scraps, tree pruning waste, etc. In addition, any other plant material can be used. The plant-derived main material can be used after pulverizing with a pulverizer and adjusting the water content.
In addition, the flower pot is reasonable because it can be designed to be decomposed in one year in the case of annual grass, for example, in accordance with the life of the plant.
Further, a mixture of two or more kinds of the above-mentioned different types of pulverized plant fibers may be used as a main material, which may be molded into a molded product.
[0014]
Among them, in particular, the dehulled rice husk is inferior in water retention and hygroscopicity, and there is a need for efficient crushing and crushing means for the rice husk, but no effective means are found at present, and rice husk is limited. It is used only for the purpose. However, in the present invention, a rice husk pulverization means was separately obtained, and the rice husk was finely pulverized to improve the hygroscopicity, so that it could be used as the main material of the composition of the present invention.
The pulverization of the main plant fiber can be satisfactorily performed by various types of pulverizers commonly used in industry. However, if the fiber or material is hard, such as rice husk, etc., it is preferable to use a dedicated pulverizer that is difficult to pulverize with an ordinary pulverizer, and also desirable from the standpoint of maintaining the quality of the molded product. .
Molded products made with this composition are adjusted by adjusting the size of the pulverized plant fiber, the amount of flour added, and the blending ratio of the binder, and designing the time required for decomposition and disintegration by microorganisms according to the use of the molded product. Can be adjusted freely.
[0015]
In addition, main ingredients containing a large amount of water, such as okara and tea extraction residues, are once dehydrated to a water content of 5 mass It is necessary to adjust to around% and use it. This dehydrated water is stored separately in a tank or the like, and when making a composition by kneading the mixture of the main material, flour and binder, if it is used for hydration, there is no need for wastewater treatment and no waste. .
If the water once dehydrated from the main material is used again, there is an effect that it can be transferred to a molded product without losing the pigment and scent of the main material.
The binder is composed of vegetable oil (60 to 65% by mass), alcohol (20 to 30% by mass) and shell powder (5 to 20% by mass) with respect to 100% by mass of the binder, considering various conditions of the molded product. 100 total binder mass It is used after blending so that it becomes%. As the vegetable oil, edible oils such as corn oil, rapeseed oil, safflower oil, sunflower oil, soybean oil, sesame oil, olive oil and coconut oil can be used. Alcohol is obtained by subjecting grains to alcohol fermentation and having a high alcohol purity of 70 to 75 degrees. As the shell powder as an antioxidant, a shellfish, clams, oysters, and other shells finely ground to 10 to 15 microns are used. This shell powder exhibits alkalinity, has an antioxidant effect on the molded product, and has an effect of extending the life of the molded product. Therefore, the time until the molded product collapses can be adjusted by adjusting the amount of shell powder added according to the purpose and application of the molded product. Since the lifetime of the molded product is determined from the production stage, it is reasonable without waste.
[0016]
The binder is added to and mixed with the flour during kneading. The alcohol content of the binder functions as water contained in the composition together with water added during kneading to give flexibility, spreadability, and plasticity suitable for press molding of the composition. In addition, this alcohol quickly evaporates with a part of other moisture in the process of molding by heating and pressing. In addition, the composition to which the binder is added contains an oil component, and at the time of molding, the oil component floats on the surface of the molded product to form an oil film, thereby improving the mold release.
Further, when it is necessary to improve the mold release, the mold release can be further improved by spraying or applying vegetable oil to the mold in advance.
Furthermore, the water added during kneading is 30 to 35% by mass with respect to the total mass of the pulverized plant fiber, flour and binder, and when kneaded uniformly for 5 to 10 minutes, heat is generated due to friction. Moisture evaporates, so the final moisture content of the composition is 20-25 mass Adjust to around%.
Molded products made of this composition are in a slightly soft state immediately after press molding, but in about 1 minute after taking out from the mold, they harden when the product temperature of the molded product decreases, and are waterproof like synthetic resin products. It will exhibit the properties, hardness and appearance.
[0017]
Further, the molded product can be used as it is for a molded product as it is in the same manner as a normal synthetic resin molded product, and has waterproofness according to the design. For example, when a dish fork or cup is molded, hot food can be served or poured with hot water. There is no hindrance to daily use. The water resistance of the molded product with this composition is such that a water pot etc. with a standard strength of the binder is molded, and even if the planted plant is watered, the waterproof effect is maintained for 6 months. Of course, if designed, the duration of the waterproof effect can be extended.
Furthermore, the molded product can be overcoated with a top coating agent when it is necessary to add a special gloss and waterproof effect to a decorative product or the like. The top coat uses the binder. After molding, when the product temperature falls to room temperature, it is applied or sprayed very thinly on the entire surface of the molded product.
In addition, edible wax, beeswax, etc. that can give gloss and have a waterproof effect can be used as a top coat. In addition, if necessary, oils and fats and synthetic resins can be used as the top coat material.
[0018]
The heat-resistant temperature of this molded product varies depending on the main material, but in the case of tableware with 2 mm wall thickness (tea bowl) made of rice husk as the main material, it is 95 ° C (± 5 degrees) and the load-proof pressure is 3 kg per 1 cm2. is there. The molded product begins to deform when it exceeds the heat resistance temperature. However, in practice, the temperature is sufficient. The hardness of the molded product is naturally different depending on various conditions such as the composition, the added amount of wheat flour, the added amount of the binder, the composition of the binder, and the moisture. Even if is used, the surface is smooth, and it has a smooth touch and appearance that is indistinguishable from a molded product of synthetic resin.
As for the molded product by this composition, for example, almost anything can be substituted for this as long as it is currently press-molded with synthetic resin such as flower pots, tableware, trays, various containers, cushioning materials, etc. .
It can also be used in the field and made disposable, such as camping tableware, knives, forks, spoons, chopsticks, etc., selecting the main material or adjusting the molding pressure, etc. in a short time If it is designed to collapse, there is no risk of polluting the environment even after being used and disposed of outdoors. Also, if used for golf tees, etc., those lost or broken and discarded will be disassembled with the passage of time, so there is no need for maintenance and management of the golf course. In addition to the examples described above, in consideration of the application and the properties of the composition, a molded article using the composition can be provided in a wide range of fields.
Molded articles made from this composition do not begin to decompose rapidly unless they are embedded in the soil. If it is placed in the air and in normal use, it has the characteristic of maintaining the original pattern for a long time.
[0019]
Further, a molded article made of this composition becomes a stubborn state when it absorbs moisture for a long time, but has a property of returning to its original hard state again when it is dried. Therefore, when a molded product such as tableware becomes unnecessary and is discarded, the molded product can be crushed or crushed by absorbing moisture, and can be discarded as normal household waste.
Further, when a sidewalk pavement tile is molded from this composition and used, it has air permeability and water permeability, and can be practically used as a sidewalk pavement tile. However, in this case, it is necessary that the lower surface is covered with concrete and does not contact the soil. When used in contact with soil, this sidewalk pavement tile starts to disassemble from the portion in contact with the soil and does not last long.
[0020]
When this molded product is used as a flower pot, it is excellent in water retention and air permeability, and has the effect of promoting plant growth. When purchasers of nursery pots and flower pots transplant, every plant pot can be placed in a larger pot as it is or buried in the soil, saving labor. Moreover, plant pots that do not have to be messed with the roots that have been cultivated, do not cause root damage due to transplantation, and are embedded in the soil should be designed so that the plant pots themselves collapse as roots grow. No inhibition occurs. Some seedlings and flower buds need to be replanted in large pots every few months. In this case, it is sufficient to replant the pots and pots in large pots to save the trouble of transplanting. Ideal for the production of pots and flower pots. Moreover, since the flower pot buried in the soil is naturally decomposed with the passage of time according to the design time of the molded product, the plant growth is not hindered.
The main material and other materials of the plant pots that have been decomposed and disintegrated are plant fibers, so that they become microbial homes or promote the growth of microorganisms, further promote decomposition, and eventually decompose into loose, soil improvement materials and It becomes a fertilizer for plants. Furthermore, if the organic fertilizer used as a fertilizer is mixed with a main material, it can also be set as a flower pot which does not require fertilizer.
[0021]
Since this composition uses surplus or waste of agricultural production as the main material, the raw material cost is low, and a molded product can be provided at a cost that can sufficiently withstand practical use.
Molded products with this composition, the dye contained in the main material used, as it is, it becomes the color of the background of the product in a natural shade, so there is no need to add a dye, and no artificial dye is added, Products that do not place a load more naturally. In this composition, a main product having a desired color can be selected to obtain a molded product having a desired color. Moreover, the peculiar scent which the main material has is also hold | maintained simultaneously, and the scent can be enjoyed for a long time. Since an artificial fragrance and an artificial colourant are not used, the color fading is little over time, and the fragrance is sustained for a long time. For example, if a coffee extraction residue is used as the main material, the background of the molded product has a coffee color and the aroma has a coffee aroma, and this aroma continues to diverge over a long period of time. In addition, if you make a molded product with flowers as the main material based on the language of the birth month, you can satisfy the taste as a birthday present. Of course, pigments can be added to these compositions to change the background color of the molded product to a desired color, and the surface of the molded product can be printed to give a colored molded product.
The main material used in the present invention is pulverized plant fibers, which are so-called organic substances. Even if they are incinerated, there is a risk of generating high temperatures and damaging incinerators or generating harmful gases like synthetic resins. There is no.
[0022]
Further, the composition of the present invention can be used as a main material after the grown plant is cut and pulverized as it is without dying or drying the main plant.
[0023]
(Disassembly test)
A No. 4 flower pot (wall thickness: 1.5 mm) molded with a composition mainly composed of pulverized rice husks was embedded in the soil, and an implementation test was conducted for the decomposed state. The No. 4 flower pot was buried in the soil of the field, but it started to decompose in 3 months, almost decomposed in 6 months, completely lost its shape in 8 months and decomposed into pieces.
Although the details of the mechanism by which the molded product of the composition of the present invention decomposes are not clear, the added wheat starch absorbs moisture, weakens the bond between plant fibers, and soil fungi in the soil propagate there. Thus, it is presumed that the starch bond that bonds the crushed rice husks is broken and decomposed.
[0024]
Examples of applications and fields of use of molded products by this composition will be described.
It can be used in the field of agricultural materials and gardening supplies. For example, when a nursery pot, a finishing pot, a cosmetic pot, etc. are molded, this flower pot can be embedded in a potted cocoon field or garden by a consumer who purchases the flower pot, which is convenient and does not take time.
[0025]
It can also be used for tableware and food distribution containers. For example, in the case of hot water drinks, hors d'oeuvres, trays, and bento boxes molded with a comminuted rice husk composition (standard thickness, standard composition), the average heat resistance temperature of the container is 95 ° C. (± 5 ° C), the average load-proof pressure is 3 kg per 1 cm 2, and deformation, wrinkle, leakage and penetration do not occur within this heating and load range. These dishes are not disposable and can be used repeatedly if they are washed in the same way as normal dishes after use. The molded products of these dishes do not contain harmful substances and do not elute harmful substances. It is safe.
[0026]
It can also be used as industrial product packaging and cushioning materials. For example, in the packing of industrial parts, product packaging and packing materials, household appliances, communication equipment, precision equipment cushioning materials (cushion materials), etc., foamed foam and cushioning materials of polymer materials are often used. If the form which accommodates a product etc. in the shape shape | molded with the composition can be used instead, it can be used and the use of a synthetic resin can be reduced. Since this molded product has a smooth surface, dust such as molded product debris is not generated. Therefore, the molded product is also preferable as a packing for precision equipment and as a cushioning material.
[0027]
Further, it is possible to replace those made of synthetic resin or made of wood by molding into a plate shape.
For example, if it is used for flooring materials (flooring materials), hand mirror frames, picture frames, clock outer frames, various wooden boxes, toys, eyeglass cases, stadium walls, firewood, etc., it will save wood raw materials from the standpoint of protecting forest resources. Can contribute. A wooden box can be used in the same way as wood by assembling a plate-shaped product with an adhesive. The toothpick can also be used as a molded product, and can be used as a material for increasing incense and incense or as a molding material.
The molding method of this composition is composed of a male mold and a female mold, uses a heat-pressed mold, and a predetermined number of steam exhausts or moisture exhaust holes are provided inside the female mold. The steam exhaust or water exhaust hole is provided so that the inner side of the female mold is small and increases toward the outside. While heating and pressurizing with a press molding machine, the composition is molded while evaporating or discharging moisture and alcohol.
[0028]
The standard molding process is to control the pressurization temperature and press pressure in consideration of various factors such as the shape of the molded product, the main material, moisture content, and other properties of the composition, and to the female mold containing the composition. The male mold is pushed by a load of 10 tons to 100 tons, and is molded by gradually applying pressure step by step while intermittently repeating the pressure press from 1 to 10 times. Moreover, the water | moisture content and alcohol which a composition contains are evaporated in parallel with a shaping | molding process. If necessary, the heating temperature, the pressing pressure, and the like are appropriately changed. The heating temperature is set to a limit at which the composition is not denatured by heat, and the pressing pressure is limited to a limit at which the molded product is not destroyed.
[0029]
The feature of press molding of this composition is an intermediate molding method between dry powder molding using a powder material that is usually performed and wet molding using a material containing a large amount of moisture, The moisture content of the composition is 20-25 mass % Is molded by intermittent press operation. Since the composition for molding an article is press-molded with a mold, the composition needs to have viscosity and plasticity. Mainly, the flour in the composition gives viscosity, and the binder and moisture contained therein have plasticity. Although, in the process of heat and pressure molding, the flour is gelatinized and alcohol and water are discharged or transpiration, but these various functions facilitate the molding. In the pressing process, a large number of molds are used side by side, and a large number of molded products may be molded at once.
[0030]
The composition of the composition, the pressing pressure, the heating temperature, the molding process, and the like must be prototyped in advance and set under respective conditions. This molding process can be performed more precisely and efficiently if it is automatically controlled by inputting data into a computer.
During this press molding, the oil contained in the binder forms an oil film on the surface of the molded product, which has the effect of improving mold release of the molded product after molding, and breaks the molded product during removal of the molded product. Eliminate pick-up accidents and improve production yield.
In any case, comprehensively considering various elements, mixing and moisture adjustment, if there is no viscosity and plasticity, there is a place where the molding has a hole in the molding process, or there is a defect part It is necessary to make a molded product with a large thickness that generates or uses a large amount of the composition. Therefore, it is necessary to make a prototype in advance and set the manufacturing conditions by mixing the main material and other raw materials.
[0031]
Further, when the molded product molded with this composition becomes unnecessary, it can be collected and pulverized and reused repeatedly as the main material of the composition of the present invention. It is a material suitable for so-called recycling and can be said to be an ideal composition and molded product from the viewpoint of environmental problems.
As described above, this molded product can be composed of all natural materials, and can provide an ideal molded product that does not place a burden on the environment and matches the future concept of environmental consideration. Is.
[0032]
According to this invention, if a molded product made of this composition is used instead of a molded product made of a synthetic resin, it is decomposed and broken down by microorganisms and ultraviolet rays even if it is buried in the soil or left outdoors. Therefore, there is an effect of greatly contributing to the solution of environmental problems without burdening the environment. Moreover, synthetic resin moldings can be reduced from waste. A material having the same function can be obtained more easily and at a lower cost than a biodegradable synthetic resin. Since the color and scent of the main material of the composition is a molded product as it is, the main material according to preference can be selected to enjoy the color and scent, and the preference can be satisfied. For this reason, it is not necessary to use an artificial pigment.
[0033]
In addition, since the period until disassembly or collapse can be designed and adjusted according to the purpose of use of the molded product, it is extremely reasonable.
In addition, surplus or waste associated with agricultural production is used as the main material, eliminating the need for disposal, so there is an effect of two birds with one stone. Because raw materials that do not contain harmful substances are used, there is no risk of harming human health. Moreover, when it becomes unnecessary, even if this molded product is disposed of by incineration, no harmful substances are generated, and after decomposition, there is an effect of becoming a soil conditioner and fertilizer in the soil. If you make a flower pot with organic fertilizer that has been treated with raw garbage, you can make a pot without fertilizer.
[0034]
The molded product of the present invention has heat resistance, does not change or deform even at a temperature of 95 ° C. (± 5 ° C.), has a load resistance pressure of 3 kg per 1 cm 2, and is suitable for molding. It is practical as an alternative material. The molded tableware is extremely safe for the human body because it contains no harmful substances and does not elute harmful substances. If the composition of this invention is used, the consumption of fossil fuel can be reduced, air pollution by incineration of synthetic resin can be prevented, and it can contribute to the solution of energy problems and environmental pollution problems, and a great social utility can be expected. Can be said. When the molded product made of this composition is no longer needed, it can be crushed and reused as a raw material for the composition, so that it has an effect as a raw material suitable for recycling. By using this composition, it is possible to provide an environmentally friendly molded article suitable for recyclyl that does not place an environmental burden. It is an ideal composition that meets the needs of today's society, literally deceives the effect of two birds with one stone to society, effectively reduces pollution free, and meets the current ecological philosophy. This composition is compatible with the so-called nitrogen cycle of so-called organic matter in plants and animals, and is also preferred for the natural order of animals and plants including mankind.
[0035]
BEST MODE FOR CARRYING OUT THE INVENTION
Test example
Using potato starch as a main material, an article molding composition 1 having the following composition was prepared. First, 20 g of wheat flour and 15 g of binder are kneaded, and the kneaded product is added to and mixed with 55 g of potato starch, and uniformly mixed with a kneader for 5 minutes while adding 35% by mass of water to the total mass of the material. Kneaded. The heat generated during kneading causes the added water to evaporate, resulting in a moisture content of about 20 mass Prepare to be about%. 100g of the composition 1 which uses potato starch as a main ingredient was obtained.
The obtained composition 1 is in a slightly moist state and spills out when it is grasped with a hand. As the flour, a strong flour, which is generally sold, was used.
The binder is composed of 60% by weight of vegetable oil, 30% by weight of alcohol and 10% by weight of oyster powder with respect to 100% by weight of the binder. As the vegetable oil, corn oil was used, and as the alcohol, 75 degree alcohol obtained by fermenting grains was used. As the shell powder as an antioxidant, oysters finely ground to 10 microns were used.
Depending on the amount of the binder added, the strength, application and time required for decomposition can be adjusted. When the amount of the binder added is increased, the decomposition time of the molded product becomes longer, and when it is decreased, the decomposition time becomes shorter. Needless to say, the decomposition time varies depending on the ratio between the added amount of the binder and the added amount of the main material.
[0036]
Example 1
The Example which prepares the composition 1 for article | item shaping | molding which uses the extraction residue of oolong tea as a main material is demonstrated.
Since the extraction residue of oolong tea contains a large amount of water of about 75% to 85% by weight, it is first dehydrated with a dehydrator, and the water content is adjusted to 10-15. mass %, And further heat treatment, moisture content 5 mass %. Store the dehydrated water in a separate tank. This is pulverized to a size of 30 to 40 microns with a pulverizer.
First, 15 g of the binder of the test example is kneaded with 20 g of wheat flour, and the kneaded product is mixed with 55 g of the pulverized oolong tea extraction residue, and dehydrated water stored in the tank is used for hydration. It knead | mixed uniformly for 7 minutes with the kneader, adding water 30-35 mass% with respect to the total mass of the said raw material. Since the water added by frictional heat generated by stirring during kneading evaporates, the water content is about 25 mass Prepare to be about%. 100g of the composition 1 which makes a main material the pulverized oolong tea extraction residue was obtained.
The obtained composition 1 is in a slightly moist state and spills out when it is grasped with a hand.
[0037]
Example 2
The Example which prepares the composition 1 for article | item shaping | molding which uses okara as a main material is demonstrated.
First, okara discharged with production of tofu and soymilk contains a large amount of water of about 75% to 85% by mass. Dehydrated with dehydrator, water content 10-15 mass % And further heat-treated to a moisture content of 5% by mass. This is pulverized to a size of 30 to 40 microns with a pulverizer.
After kneading 15 g of the binder of the test example with 20 g of wheat flour, the kneaded product is mixed with 55 g of dehydrated okara and uniformly added in a kneader while adding 30 to 35 mass% of water to the total mass of the material. Kneaded for 8 minutes. Since the water added by frictional heat generated by stirring during kneading evaporates, the water content is about 25 during kneading. mass Prepare to be about%. Group mainly made from okara
100 g of composition 1 was obtained. The obtained composition 1 is in a state of spilling when it is held in a slightly moist state with a hand.
[0038]
Example 3
The Example which prepares the composition 1 for article | item shaping | molding which uses a rice husk as a main material is demonstrated.
A rice husk crushed to a size of 30 to 40 microns with a pulverizer was used as a main material, and the following composition was used.
Recipe
700g of ground rice husk
50g flour
5g binder
First, 5 g of the binder of Example 1 was mixed with 50 g of wheat flour, and then this mixture was mixed with 700 g of pulverized rice husks. For 10 minutes. Since water added by frictional heat generated by stirring during kneading evaporates, the water content is about 20 during kneading. mass Prepare to be about%. 1 kg of composition 1 mainly composed of okara was obtained. The resulting composition 1 is slightly moist and spills when held by hand.
[0039]
Example 4
The molded article by the article molding composition 1 of the present invention will be described. The molded product of the food container and No. 4 flower pot by the composition 1 will be described. A gold container in which a food container was molded with the composition 1 obtained in the test example and examples 1 and 2 and a No. 4 flower pot (thickness 2 mm) was heated to 150 ° C. using the composition 1 obtained in 3. This is an example in which a mold is used for heat molding with a press molding machine.
When 50 g of the composition 1 based on starch obtained in the test example was used and a tableware bowl having a diameter of 145 mm and a thickness of 2 mm was molded, a molded product with a ceramic white background was obtained. The moisture content of this molded product is 10 mass %. Immediately after molding, it is somewhat flexible but hardens when the product temperature reaches room temperature.
The molded product of this composition 1 has a smooth surface, a smooth touch, appearance and hardness that are indistinguishable from a synthetic resin molded product, and has a specific gravity of 1.5. . The water content of the porridge is 10 mass %.
[0040]
Using 50 g of the composition 1 containing the pulverized oolong tea extract residue obtained in Example 1 as the main material, a round dish of 120 mm in diameter and 2 mm in thickness was produced. In addition, the scent of oolong tea was strong in the molded product.
The molded product made of the composition 1 has a smooth surface, exhibits a smooth touch and appearance that is indistinguishable from a synthetic resin molded product, and has a specific gravity of 1.4. The water content of the round plate is 10 mass %.
A cup-shaped natto packaging container having a diameter of 60 mm and a thickness of 1.5 mm was produced using 50 g of composition 1 mainly composed of okara obtained in Example 2.
The molded product of the composition 1 has a white background, a smooth surface, a smooth touch and appearance that is indistinguishable from a synthetic resin molded product, and has a specific gravity of 1 .5.
A No. 4 flower pot (thickness 2 mm) was produced using 100 g of composition 1 based on the ground rice husks obtained in Example 4.
The molded product of this composition 1 has a pale yellow background, a smooth surface, a smooth touch and appearance that is indistinguishable from a synthetic resin molded product, and has a specific gravity of 1.4. The moisture content of No. 4 flower pot is 10 mass %.
If this flowerpot was used as a normal flowerpot, the time until decomposition was 2 years.
[0041]
Example 5
FIG. 1 is a flow sheet diagram for the production of a molded product using the article molding composition 1 of the present invention. A method for forming a molded product of No. 4 flower pot (thickness 2 mm) using the composition 1 will be described with reference to FIGS.
100 g of the composition 1 mainly composed of rice husks obtained in Example 3 was used.
A male mold 2 and a female mold 3 were used, and a 400-ton press was used. An appropriate number of drainage and steam discharge holes 10 are provided on the inner wall of the female mold 3. The composition is transferred to the bottom 3 of the female mold 3 after a predetermined amount is conveyed to the chamber by a screw conveyor (not shown). The male mold 2 and the female mold 3 are heated to around 150 ° C.
The male mold 2 shown in FIG. 2A is lowered into the female mold 3 in the direction of arrow 4 according to a computer program set in advance. The press load is 50 tons. Next, the male mold 2 is pulled upward in the upward direction indicated by the arrow 5 in FIG. Next, as indicated by an arrow 6, the male die 2 is pushed downward and pressurized with a press load of 50 tons. The composition 1 at the bottom of the female mold 3 is pushed by intermittently repeating the pressurizing steps indicated by arrows 7 and 8 in FIG. 2 (c), so that the male mold 2 and the female mold 3 are pressed. The resin is molded while being drained and exhausted from the drainage and steam discharge holes 10 provided in the female mold 3 while being gradually pushed upward through the gap. As shown in FIG. 2D, when the male die 2 is pushed in the direction of arrow 9 to the lowest end with a press load of 50 tons, the composition 1 is molded into a No. 4 flower pot, and the molding process is completed. The time required for molding was 60 seconds. When the male mold 2 was pulled upward and the molded product was taken out from the female mold 3, a molded product of No. 4 flower pot was obtained.
[0042]
In the molding process, the pressure is gradually and gradually repeated 10 times gradually while controlling the temperature and the press load by 50 tons in consideration of the main material, various elements such as water content, and other properties of the composition 1. Then, molding takes 60 seconds step by step. When molding is performed at once, the thickness of the molded product is reduced, so that the filling amount of the composition is made as small as possible and the moisture content of the composition is relatively small and lacks fluidity. It is difficult to be dispersed thinly throughout. As a result, a place where a hole is opened in the trunk portion of the flower pot or a defective portion is generated at the edge, so this method is not preferable.
In parallel with the molding process, the moisture and alcohol contained in the composition 1 are discharged or evaporated from the drainage and steam discharge holes 10 provided in the female mold 3. Final moisture content of molded product 10 mass Mold while adjusting to around%.
In the press molding process, the composition 1 is heated to about 150 ° C. by the heated male mold 2 and female mold 3, so that the wheat starch is gelatinized and glued into the crushed rice husk. Function as.
In this press apparatus, if a large number of molding dies are used in parallel, the composition 1 containing 36 tons of rice husk per hour as the main material can be molded.
[Brief description of the drawings]
FIG. 1 is a flowchart of a molded product manufacturing process according to the present invention.
FIG. 2 is a longitudinal sectional view showing molding steps (a) to (d) of a molded product by a mold, and (a) a state showing a state in which a composition is filled in a female mold before pressing.
(B) The figure which shows the state which started the press.
(C) The figure which shows the state in the middle of press molding.
(D) The figure which shows the state which complete | finished press molding.

Claims (8)

Based on 100% by mass of the composition of the mixture , pulverized plant fibers of 25 to 85% by mass are used as a main material, and the main material contains 5 to 70% by mass of wheat flour, and 3 to 50% of a binder made of vegetable oil, alcohol and shellfish powder. % To give a mixture, 30 to 35% by mass of water is added to the total mass of the mixture, and this is kneaded to give a composition for molding an article having a water content of 20 to 25% by mass. A method for producing a biodegradable pulverized plant fiber molded article having synthetic resin molding characteristics, characterized in that it is press-molded by heating and pressing with a mold.   2. The production of a biodegradable pulverized plant fiber molded article having synthetic resinous molding characteristics according to claim 1, wherein the main material comprising the pulverized plant fiber is rice husk and / or rice straw pulverized to 1 mm or less. Method.   The biodegradable pulverized plant fiber molded article having synthetic resin-like molding characteristics according to claim 2, wherein the main material comprising pulverized plant fibers is rice husk and / or rice straw pulverized to 30 to 40 microns. Manufacturing method.   The binder according to claim 1, wherein the binder is a combination of 60 to 65% by weight of vegetable oil, 20 to 30% by weight of alcohol and 5 to 20% by weight of shell powder with respect to 100% by weight of the binder. A method for producing a biodegradable pulverized plant fiber molded article having a synthetic resinous molding characteristic as described above.   5. The biodegradable pulverized plant fiber molded article having synthetic resin-like molding characteristics according to any one of claims 1 to 4, wherein the wheat flour is a non-heated or heat-treated powder of weak flour, medium flour or strong flour. Manufacturing method.   6. The synthetic resin molding property according to claim 1, wherein the composition for molding an article according to claim 1 is press-molded by heating and pressurizing, and then the outer wall is overcoated with an overcoat material. A method for producing a biodegradable pulverized plant fiber molded article.   7. The method for producing a biodegradable pulverized plant fiber molded article having synthetic resinous molding characteristics according to claim 6, wherein the binder according to claim 4 is used as the top coating material. Heating and pressure press molding of a composition for molding an article using a mold, press molding by heating and pressurizing at a load of 10 to 100 tons with a mold heated to 150 ° C. A method for producing a biodegradable pulverized plant fiber molded article having the synthetic resinous molding characteristics of Item 1 .

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