KR20110033832A - Mosaic artistic handicraft grain and preparation method thereof - Google Patents

Abstract

PURPOSE: A method for manufacturing grain for mosaic handcraft is provided to prevent grain shape and to remarkably extend expire date. CONSTITUTION: A method for manufacturing grain for mosaic handcraft comprises: a step of drying gain under 90°C to have 12-16 weight% of water content; a step of adding 0.1-10 weight% of coating substance to the dried grain; and a step of mixing 10-95 weight% of volatile substance, 0.0001-20 weight% of grain insect extermination agent, 0.000001-40 weight% of water soluble coloring agent to obtain dissolved volatile mixed solution.

Description

Mosaic artistic handicraft grain and preparation method

The present invention is to dry the body of the grain not to be deformed, adsorb the dried grains as a coating material and then add a mixture of a grain worm repellent and a colorant to the volatiles to penetrate or fix the grains and then dry at low temperatures, mosaic It is related to the mosaic craft grain and its manufacturing method that can significantly increase the shelf life of the grain as the craft supplies, while maintaining the properties of the grain as it is, but does not deform the body of the grain even after dyeing.

Grains are used for mosaic crafts using the unique natural colors of various grains. In addition, rice processed as rice is excellent in transparency and suitable to penetrate various colorants, so that dyes can be penetrated into processed rice to produce dyed rice and used as a mosaic craft.

The dyeing rice is known to be manufactured by manufacturing the dye by impregnating the processed rice in the colorant mixture obtained by mixing the colorant with a hydrophilic solvent (water) to allow the colorant to penetrate into the inside of the rice and then dry it. In the conventional dyeing rice, the body of the processed rice is blown by the hydrophilic solvent (water) of the colorant mixture in the process of the colorant penetrates into the rice, causing cracks in the body of the rice. In order to remove the hydrophilic solvent of the colorant mixture which transported the colorant into the rice, cracking is accelerated and even broken in the body of the rice. In particular, when the finished dyed rice is rubbed by hand or subjected to a slight impact, the cracked portion deepens and breaks. This is an obstacle to the implementation of the mosaic art work, there is a problem that the quality of the product falls.

Of course, it can be colored on the grain by using an oil paint, but in this case, since it is applied to the surface of the grain and colored, in the case of small grains, the grains stick to each other and the coating film is not clean. In case of weak rice, non-glutinous rice, and glutinous rice, the cracks are easily broken in the body. In particular, when the dye is immersed in a large amount of grain in the oil paint, the phenomenon of the disadvantage described above is further intensified.

Moreover, even when it is desired to maintain a specific pattern of each grain, the oil paint penetrates and adheres between the grains of the grain pattern, so that the distinction between grains of grain pattern is almost disappeared or disappeared. have.

In addition, conventional grains as mosaic crafts products containing dyed rice are exposed to grain-like insects under an environment exposed to the outside, so that the work is damaged due to insects in the finished grain mosaic crafts / work after long or long periods of time. There is a problem that the distribution period is very short.

Due to these problems, the activation of mosaic grain craft (art field) is weak.

The present invention was devised to solve the above problems, the mosaic craft as a mosaic craftsmanship while maintaining the characteristics of the grain, the body of the grain does not deform even after dyeing, it is also strong in grain bedding mosaic technology that can significantly increase the shelf life Its purpose is to provide a grain and a method of manufacturing the same.

The present invention for achieving the above object is dried so that the body of the grain is not deformed, and the dry grain is adsorbed as a coating material and then added to the volatiles by adding a mixture of grain worm repellent and colorant to penetrate or fix the grain By drying at the next low temperature, as the mosaic craft supplies, while maintaining the properties of the grains, but does not deform the body of the grains even after dyeing, and provides a mosaic craft grains and a manufacturing method that can significantly increase the shelf life of the grain worms .

By carrying out the technique of the mosaic craft grains of the present invention and the method of manufacturing the same, while maintaining the characteristics of the grains, even after dyeing, the body of the grains is not deformed, the production time is shortened, and also strong for grain bedding, which dramatically breaks the shelf life. As it can increase, it can be expected to contribute to the activation of mosaic grains.

Hereinafter, a preferred embodiment of the mosaic craft grains and a method of manufacturing the same will be described in detail.

Method for producing a mosaic craft grain of the present invention

a) a grain drying step of drying the grain at 90 ° C. or lower so as to have a water content of about 12 to 16 wt%;

b) coating adsorption step of adsorbing 0.1 to 10% by weight of the coating material to the total weight% of the dry grain to the dry grain of step (a);

c) a volatile mixed liquid preparation step of forming a dissolved volatile mixed liquid by mixing 10 to 95% by weight of a volatile substance, 0.0001 to 20% by weight of grain worm fighting agent, and 0.000001 to 40% by weight of a water-soluble coloring agent;

d) combining step of penetrating or fixing by adding the volatile mixed solution of step (c) to the coating grain of step (b); And

e) the grains of step (d) are prepared, including a grain drying step of the final drying to a moisture content of about 12 to 16% by weight at 60 ℃ or less.

In the step (a) of the present invention, the grains are white beans, black beans, rat eye, eastern, green beans, peanuts, red beans, sesame, perilla, millet rice, spicy rice, beans, red beans, oats, barley, wheat, crude, sorghum, It is grains such as yulmu and corn, and in addition to the above-mentioned grains, it is also a rice, radish, wild radish seed, turnip seed, chestnut, walnut, ginkgo, yulmu seed, red pepper seed, stag tree seed, panbuche seed, bibichu seed, horse urinary seed. , Peach seed, plum seed, persimmon seed, cotton seed, hut seed, ivy seed, grape seed, blueberry seed, pear seed, apple seed, pomegranate seed, papaya seed, balsam seed, camphor seed, zippo seed, wild bamboo seed, Sunflower seeds, watermelon seeds, pumpkin seeds, kalanchoe seeds, hawthorn seeds, rowan seeds, horseradish seeds, mineral wood seeds, hawthorn seeds, tangerine seeds, squid seeds, citrus seeds, hawthorn seeds, buckthorn seeds, raspberry seeds , Jujube seed, Chinese quince seedling, ladder tree seed, citron seed, citrus seed, royal orange seed, avocado seed, pine seed, pine tree seed, turnip Hawk, who ginger nuts, seeds plum, cedar seeds, platycladus seed, cypress seeds, seeds, plum seeds apricot, cherry seeds, Ilex integra seed, olive seed. Seeds of various plants, such as cherry seeds, mulberry seeds, olive seeds, harpoon seeds, pine seeds, sputum seeds, camellia seeds, etc. These plant seeds are preferably used to remove dried fruit juice. These cereals and seeds may be applied to any one or more selected from the group of cereals and seeds.

In addition, the drying temperature of the grain is applied differently depending on the type of grain, and millet rice, non-glutinous rice, light rice, glutinous rice, etc., which are sensitive to the change of temperature, use natural wind and low temperature drying in the range of -3 to 20 ℃. It is better to choose a method, and grain or woody plant seeds, such as legumes, which are relatively resistant to temperature, may be heat dried or hot air dried below 90 ° C. And it is desirable to dry the grain content of about 12 to 16% by weight, preferably 14 to 16% by weight. If the grain content is less than 12% by weight, for example, grains such as millet rice, non-glutinous rice, or light rice, the grain is too dry to start to crack in the body of the grain. There is a problem that breakage occurs, and when the moisture content of the grain is more than 16% by weight, there is a problem that the coating material coating the surface of the grain prevents sticking. Therefore, the water content of the grain may be applied in a reasonable manner depending on the type of grain in the range of about 12 to 16% by weight to provide a dry grain.

In the step (b) of the present invention, the coating material; Animal oils, edible adhesives, milk adhesives, petrolatum, higher fatty acids, castor oil, liquid paraffin, silicone oil, polymer silicone and derivatives thereof, squalane, ester oil, soybean oil, rapeseed oil, olive oil, safflower oil, wheat germ oil, camellia oil, One or more selected from various herbal oils, castor oil, coconut oil, cottonseed oil, palm kernel oil, palm oil, peanut oil, soybean oil, rapeseed oil, flaxseed oil, rice bran oil, pine oil, sunflower seed oil It may be applied, the content is 0.1 to 10% by weight of the coating material, preferably 1 to 6% by weight, preferably 1 to 3% by weight of the total weight of the dry grain. If the coating material is less than 0.1% by weight it is difficult to evenly adsorb on the surface of the grain, there is a waste of more than 10% by weight, there is a disadvantage that takes a long time in the subsequent drying process.

Of course, while putting the dry grain in the container, add an appropriate amount of coating material and stir evenly with a spatula so that the coating material is adsorbed on the surface of the dry grain, or add the dry grain and the appropriate amount of coating material to the stirrer to stir at low speed The material may be adsorbed on the surface of the dry grain.

In addition, the content of the water-soluble colorant coating material in the coating material of step (b) may be contained in a rational manner in the range of 0.000001 to 300% by weight. When the water-soluble colorant is included in the coating material, the coloring effect is doubled when adsorbed to the grains than in the volatile mixture containing the colorant described below.

In the step (c) of the present invention, the volatile substance contained in the volatile mixture is a liquid exhibiting volatile in the air as an organic compound; Organic solvents, liquid fuels and the like are used. As an organic solvent, for example; Hydrocarbons, alcohols, ethers, ketones, butanol, amines, ethanol, formaldehyde, thinners, solvents, toluene, xylene, ethylene, styrene, acetaldehyde, and the like. Hydrocarbons commonly used in everyday life, such as aromatics including light oil, kerosene, benzene, acetylene, paraffin, and the like, may be used.

However, it is preferable to use alcohols which are well volatilized in the air and do not remain odor after volatilization.

These volatile materials may be applied alone or in combination of two or more thereof, and the content thereof may be contained in the range of 10 to 95% by weight, preferably 30 to 95% by weight, based on the total volatile mixed composition.

In addition, the grain insect repellent contained in the volatile mixed solution of step (c) is a grain worm that inhabits the grain and destroys the body of the grain. It is not limited as long as the effect of (remedy) is exhibited.

Grain insect repellents include naphthalene, chrysanthemum flower extract, capsaicin, capsicum extract, red pepper powder, capsaicinoids, benzylnicotinate and other capsaicin derivatives, cinnamon extract, green tea extract, organic synthesis Pesticides, one or two or more selected from the group of natural pesticides may be applied, the content of the content of the total volatile mixed composition can be formulated in a rational manner in the range of 0.0001 to 20% by weight.

The insecticide may include an organic synthetic insecticide that is harmful to the human body, but a natural insecticide that is not harmful to the human body is preferable. Natural insecticides extract pesticides found in plants and minerals, such as pyrethrins (extracted from pesticides), rotenones (extracted from the roots of Terris), nicotine agents (extracted from tobacco), and scattering (separated from zeolites). By aging / fermenting with plants, minerals, microorganisms, etc., the insecticide is prepared by a known insecticide production method, and it is more preferable to use commercially available natural insecticides whose stability is confirmed.

In addition, the water-soluble colorant contained in the volatile mixed solution of step (c) refers to pigments, pigments, and other substances having the ability to penetrate into the interior of the grain or adhere to the surface of the grain to give color, natural pigment It may be a colorant mainly used for dyeing fabrics such as synthetic dyes and direct dyes. In particular, food colorings used in food additives are better. Natural pigments include plant pigments, animal pigments and mineral pigments. Plant pigments are widely distributed in the plant kingdom, for example; Grape extract pigment (Jin violet), flavonoid (flavonoid, yellow), anthocyan (anthocyan, red), cassamine (red), rutin (yellow), quercetin (brown), tannin (red brown) , Chlorophyll (green), carotinoid (carotinoid, red yellow), crocin (red yellow), quinones (yellow, orange, red), sikonin (shikonin, purple), alizarin (red), Turkey red pigment, red cabbage extract pigment (red, red purple), paprika extract pigment (red, orange), red yeast (monascus) extract pigment (red), side extract pigment (dark blue), gardenia extract Pigment (Red, Yellow, Blue, Red), Schisandra chinensis extract (Red), Indigo (Navy), Cucumber Leaf Extract Pigment (Purple), Multiwood Extract Pigment (Red), Rosewood Extract Pigment (Red), Logwood Wood Extract Pigment (Red), Madder Root Extract Pigment (Red Yellow), Flavin (Yellow), Mulberry Fruit Extract Pigment, Maru Extract Pigment, Wool Powder, tangerine peel powder, pine needle powder, cypress leaf powder, cypress leaf powder, green tea leaf powder, raspberry extract pigment, Astragalus extract pigment, mugwort extract pigment and tar pigment, chlorophyll derivatives, minerals (titanium dioxide, iron trioxide), synthetic 12 kinds of tar pigments, 8 kinds of aluminum lakes, β-carotene, iron trioxide, titanium dioxide, water soluble anato, iron chloropyrinathrium, donchlorophyllintrium, copper chlorophyll, riboflavin, riboflavin butyric acid dyes) and the like.

As an animal pigment, for example; Hemoglobin hemoglobin (light red), hemocyanine (hemocyanine, light blue), carotinoid, melanin (melanin, brown, dark black), cochineal cochineal (red), sepia (sephia, dark brown), often extracted from shellfish Or the crimson pigment | dye etc. can be illustrated.

As a mineral pigment, powdered ore with fine particles of ocher or color is used, and it is preferable to bind to the surface of the grain by binding (coating material) rather than penetrating the grain.

In addition, commercially available printer inks, aqueous dyes mixed with aqueous paints, and the like can be used.

Such an aqueous coloring agent may contain one or two or more selected from the group of the coloring agent, the content thereof may be contained in a rational manner in the content ratio of the total volatile mixed composition in the range of 0.000001 to 40% by weight.

Of course, the present invention does not need to add a colorant to the volatile mixture in step c) as necessary (such as to use a specific natural color of the grain).

The present invention can be added to the volatile mixed solution in step (c) by adding a fragrance, nano silver, preservatives and the like in addition to the above components in a range and method that does not interfere with the object of the present invention.

The nano silver is a new concept material produced by utilizing the excellent efficacy of antibacterial activity, deodorizing power, extending the preservation time of food among the various properties of silver (Ag).

Regardless of the East and the West, silver has been recognized as a disinfectant as well as preventing bacteria. Currently, the extraction method of Nano Silver (NANO SILVER) is used to add silver (Ag 99.9%) to distilled water and generate low current at low temperature. After electrolysis of the silver-containing compound, electrophoresis using the + and-poles of each molecule can be used to collect silver (Ag 99.9%) and other physical methods such as liquid reduction and grinding. In order to obtain a stable nano silver (NANO SILVER) is used a lot of the above electrolysis method.

Silver ions are also used in general sterilization concept machines and disinfectants, and all silver products currently used are silver obtained by decomposition, and the addition amount is very small. The sterilization power of silver varies depending on the product, but a maximum of 99% can be obtained.

NANO Tamp; C's Nano Silver is a 3 ~ 5nm silver ultrafine particle that acts directly on harmful bacteria, directly dissolves the cell membranes of harmful bacteria, and sterilizes by disrupting the electron transfer system of harmful bacteria. 99.9%). (For reference, VIRUS size is about 10nm.)

The main antibacterial mechanism is to melt the cell membrane of harmful bacteria and interact with enzymes in the cells to block the metabolic function of nutrients, ie, the influx and discharge of nutrients, and to prevent the respiratory function of harmful bacteria, thereby preventing the growth of harmful bacteria. Destroys harmful bacteria by destroying regenerative capacity.

In addition, since it releases antimicrobial power continuously from Nano Silver fine particles to control harmful bacteria, it has excellent durability of antibacterial / bacterial function.

The smaller the nano (NANO) particles, the better the bactericidal and antimicrobial activity, and based on the experimental data so far, Escherichia coli, Staphylococcus aureus, Salmonella, Vibrio bacillus, Heterogeneous bacteria, Pneumococcal bacteria, Typhoid bacteria and the most resistant MRSA 99.9% antibacterial and bactericidal can be used to suppress the development of foreskin infection of penis.

Even if silver (Ag) is present in an ionic state or a metal state, it may be referred to as colloidal silver when it is present in a colloidal state by a solvent.

Nano silver (NANO SILVER) has the best antibacterial activity.

Unlike general chemical antibacterial agents, NANO Tamp; C NANO SILVER is an ultra-fine particle of pure SILVER unlike other chemical antimicrobial agents.It is stable even at high temperatures, and its antibacterial and bactericidal properties are sustained. NANO Tamp C's NANO Silver is a natural antibacterial and antibacterial agent using pure silver ultrafine particles, non-toxic and non-irritating to humans, and almost all bacteria or bacteria live in contact with NANO Silver for more than 5 minutes. No results have been reported.

The addition amount of the nano silver (NANO SILVER) may be contained in the form of a solution or powder in the range of 0.01% to 40% by weight or less based on the total amount of the volatile mixed liquid composition.

As said fragrance; Volatile mixtures are formulated to impart the efficacy of aromatherapy, for example, linden flowers, licorice, pereirian, peppermint, mint, lemon barbena. verbena, thyme, mate, marigold, orange peel, wild strawberry, orange blossom, sage, basil ), Rosepink, marrow, black tea, jasmine, valerian, bergamot, chamomile, cedarwood virginia, cinnamon ( cinnamon, clary sage, cypress, funnel, frankincense, grapefruit, hyssop, juniper, lemon, lemon, lime lime, marjoram, myrrh, palmarosa, patchouli, rose absolute, sandalwood, tea Tea-tree, ylang ylang, ginger, rose, cardamom, green tea leaves, mugwort, chrysanthemum, pine, fir, cinnamon, ginkgo, fig , Polyphenol catechins, oak vinegar, barberry, catnip, Valerian, etc., and one or two or more selected from the encapsulated flavors encapsulated in nano or micro units can be used, and the amount of the addition It can be contained in 0.01 to 40 weight% or less with respect to the total amount of silver volatile liquid mixture compositions.

For reference, as the fragrance, scented fragrance, Eucalyptus, neem oil, Lantana camara, Artemisia vulgaris, Rosemarinus officinalis, geranium, lavender , Essential oils extracted from fennel oil, thyme, lemongrass, cinnamon, ginkgo and fig tree, and polyphenol catechin, green tea extract, citronella, citronella, etc. It is effective in preventing or avoiding the use of force by inhibiting the access and activity of harmful insects such as mites that mediate various diseases to the human body or livestock.

In addition, the forbidden tree extract of the fortune tree extract, forage peppermint flavor for the peppermint extract, rat urine flavor for the extract of Valerian extract is a fragrance indicating the excitability of feline animals. It is known that dogwood fragrance reacts to feline animals (cats, lions, etc.) by reacting to a substance called nepetalactone. The excitement is usually about 5 minutes, and there is no risk of poisoning like alcohol or drugs, and it is characterized by no harm to the body. Catnip or urine smells unique to cats, also known as cat grass. The feline, which senses the smell of catnip or urine, appears to be in ecstasy, unconsciously dizzy, and responds to virtual stimuli. The state of excitement is usually within five minutes, with no fear of poisoning like alcohol or drugs, and no harm to the body.

As said preservative; 1 type selected from benzoic acid, dehydroacetic acid, paraoxybenzoic acid ester (methyl paraoxybenzoate, butyl paraoxybenzoate, etc.), methyl paraoxybenzoate, a mixture of methylchloroisothiazolinone and methylchloroisothiazolinone, and phenoxyethanol Or it can add and use 2 or more types, The addition amount can be contained in 0.001%-20 weight% or less with respect to the whole amount of volatile liquid mixture compositions.

In the present invention, step (d) is a step of combining the grains of the coating adsorbed in step (b) and the volatile mixed solution dissolved in step (c). The combination of grain and volatile liquid mixture is added to the volatile liquid mixture in the grain of step (b) where the coating is adsorbed and mixed well in a container or agitator so that the volatile liquid mixture penetrates into the grain, or the coating is adsorbed by using a sprayer. It can be applied well by spraying the whole grain surface of step (b) one or more times, by stirring or stirring with a spatula or the like to fix the dissolved volatile mixed solution, so that the grain and the volatile mixed solution can perform the bonding process.

When the dry grains are immersed in the volatile mixed solution, the dipping time is different depending on the type of grain, and may be soaked for about 1 minute to 10 hours, but the time may be increased as necessary, such as to penetrate more colorant.

In this way, the coating material adsorbed on the surface of the grain in step (b) and the dissolved volatile mixed solution of step c) are uniformly mixed with each other to uniformly infiltrate and adhere to the whole grains such as coatings, colorants, and bedbugs. Although the coloring effect of a coloring agent becomes more favorable. In addition, the coating material exhibits an effect of shortening the drying time even in the grain drying step to be described below.

If the coating material is dried in the state of being adsorbed on the surface of the grain, it takes a long time to dry, and the disadvantage is that the coating material gets on the hands.

In the present invention, step (d) is a natural drying of the grains and the volatile mixture is combined in step (c), or by hot-air drying at a temperature of 60 ℃ or less, by volatilizing volatile components to finally dry the grains can do.

Of course, it will be most desirable that the moisture content of the final dry manufactured grain is about 12 to 16% by weight.

The grains produced in this way are not deformed even after dyeing, while the grain properties remain unchanged (such as cracks in the body or rubbing by hand). It is strong enough to provide a method for producing mosaic grains that can significantly increase the shelf life.

In addition, by incorporating a coating material, insect repellent, preservatives, etc. on the surface in the process of producing the mosaic craft grain manufacturing method, by penetrating and fixing on the grain surface, mosaic craft that can further extend the shelf life of grain It will be possible to provide a method for producing a grain of dragon.

The grain produced by the technique of the present invention may be preferably applied not only to the field of mosaic crafts but also to the field of accessories of ornaments.

Hereinafter, the present invention will be described in detail by way of examples.

However, the following examples are merely to illustrate the invention, but the content of the present invention is not limited to the following examples.

≪ Example 1 >

Add 2g of liquid paraffin to 1.5Kg of naturally dried processed light rice so that the moisture content is about 14 to 16% by weight, and stir evenly with a spatula in a container to adsorb the coating material to the grain, and then 90.5 weight of methyl alcohol to the grain to which the coating material is adsorbed. %, Capsaicin powder (phosphoric acid) 0.5% by weight, paraoxybenzoic acid methyl (1% by weight), colorant (hp genuine ink, yellow) 10% by weight of the dissolved volatile mixture was added and immersed for 30 minutes, and then evenly placed on a sheet of paper At about 16 ° C. or lower, yellow mosaic craft rice was prepared by air drying to dry at a moisture content of about 14 to 16 wt%.

<Example 2>

2 g of liquid paraffin and 6 g of colorant (hp genuine ink, yellow) were added to 1.5 Kg of naturally dried processed light rice so that the moisture content was about 14 to 16% by weight, and then evenly stirred with a spatula in a container to adsorb the coating material to the grain, and then the coating. 89.5% by weight of methyl alcohol, 0.5% by weight of capsaicin powder (phosphoric acid), 1% by weight of methyl paraoxybenzoate, 10% by weight of colorant (hp genuine ink, yellow), Strella fragrance (microcapsules) 1 Mix the weight percent, add dissolved volatile liquid mixture, and soak for 10 minutes, then place it evenly on Korean paper, and dry it to approximately 14 to 16 wt% of water at 16 ℃ or below, and dry it to dry yellow mosaic craft rice. Prepared.

<Example 4>

100 g of naturally dried processed light rice to be about 14 to 16% by weight of water and 5% by weight of colorant (red grape skin extract pigment, dark purple) were mixed and immersed in the dissolved mixture for 2 hours, and then 16 It was naturally dried at about 14 ° C. to about 16% by weight or below to prepare a dark purple mosaic craft rice paddy.

<Example 4>

30 g of naturally dried red beans were mixed with 95% by weight of water and 5% by weight of colorant (red grape skin extract pigment, dark purple) to give a water content of about 14 to 16% by weight, and then immersed in the dissolved mixture for 2 hours, and then 16 ° C. In the following, the moisture content of about 14 to 16% by weight to dry naturally to prepare a yellow mosaic craft red bean.

Example 5 Body Deformation Test of Grains

The mosaic craft grains of Examples 1 to 2 manufactured by the technology of the present invention are visually observed even after the manufacturing process and the manufacturing process, the body deformation of the grain did not occur, the specific grain texture of each grain is in a natural state It is kept and the color is good. They also tried to crush and crush these grains with the palm of their hands, but they remained firm and did not deform the body of the grain.

On the other hand, the mosaic craft dyed rice of Example 3 manufactured by the prior art is generally good in color, but severe cracks could be observed with the naked eye in the whole body of the dyed rice, and the palms were thoroughly rubbed with the dyed rice. As a result, the body of the dyed rice was easily broken and deformation of the body occurred easily.

In addition, the mosaic craft dyed adzuki bean of Example 4 prepared by the prior art is not only good in color, but also the crusts and cracks in the entire body of the dyed adzuki beans occurred with most of the red beans with the naked eye. Could easily be observed.

Example 6 Exposure Tests for Bedbugs

In the rainy season in June, after leaving for 30 days in a container without a lid in a damp container in the state contained in the dyeing grains of Examples 1 to 4, and observed with the naked eye, the Examples 1 to 1 manufactured by the technology of the present invention The grain worms did not inhabit and the dyeability did not change.

However, in the dyed rice of Example 3 prepared by the prior art it can be observed that the mold and insects began to inhabit the naked eye, and also in the dyed adzuki bean of Example 4 inhabited by the burrow in the adzuki bean shell It could be observed.

In addition, the mosaic craft dyed adzuki bean of Example 4 prepared by the prior art is not only good in color, but also the crusts and cracks in the entire body of the dyed adzuki beans occurred with most of the red beans with the naked eye. Could easily be observed.

Such a test result, it can be said that the case can be confirmed that the shelf life is longer than the conventional mosaic craft grain.

As mentioned above, although specific embodiments of mosaic craft grains and a method of manufacturing the same belonging to the present invention are illustrated and described as described above, the present invention is not limited to the above-described embodiments and examples, and the present invention. It will be apparent to those skilled in the art that various other changes and modifications can be made without departing from the spirit and scope of the present invention, and therefore these techniques also fall within the claims of the present invention. Will have to belong.

The present invention uses the techniques of mosaic craft grains and the method of manufacturing the same, while the characteristics of the grains are maintained intact, even after dyeing, the body of the grain is not deformed, it is strong even in grain bedding for mosaic grain crafts that can significantly increase the shelf life. It can be used to strategically target niche markets in related fields such as art supplies (mosaic grain crafts) and interior accessories, and its industrial significance in this field is extremely large.

Claims (10)

a) a grain drying step of drying the grain at 90 ° C. or lower so as to have a water content of about 12 to 16 wt%; b) coating adsorption step of adsorbing 0.1 to 10% by weight of the coating material to the total weight% of the dry grain to the dry grain of step (a); c) a volatile mixed liquid preparation step of forming a dissolved volatile mixed solution by mixing 10 to 95% by weight of a volatile substance, 0.0001 to 20% by weight of a grain bug repellent, and 0.000001 to 40% by weight of a water-soluble coloring agent; d) combining step of penetrating or fixing by adding the volatile mixed solution of step (c) to the coating grain of step (b); And e) a grain drying step of final drying the grain of step (d) to about 12 to 16% by weight of moisture at 60 ° C. or less. The method of claim 1,
Cereals include white beans, black beans, rods, eastern beans, green beans, peanuts, red beans, sesame seeds, red beans, millet rice, hot rice, soybeans, red beans, oats, barley, wheat, crude, sorghum, yulmu, corn and other cereals and rice, radish, Wild radish seeds, turnip seeds, chestnuts, walnuts, ginkgo, yulmu seeds, red pepper seeds, heirloom seeds, pancreas seeds, bibichu seeds, urinary seeds, peach seeds, plum seeds, persimmon seeds, cotton seeds, walnut seeds, Vine seed, grape seed, blueberry seed, pear seed, apple seed, pomegranate seed, papaya seed, balsam seed, camphor seed, zippo seed, wild bamboo seed, sunflower seed, watermelon seed, pumpkin seed, buckthorn seed, rapeseed seed, rowan seed , Seedling, seedling, seedling, seedling, seedling, citrus seed, hawthorn seed, buckthorn seedling, daughter's seed, jujube seed, quince seedling, ladder seed, citron seed, citrus seed , Wang Tangerine Seed, Avocado Seed, Pine Seed, Pine Seed, Stem Seed, Ginger Berry Seed, Plum Seed, Cedar Seed, Cedar Seed, Cypress Seed , Seeds, plums, Mr. Cherry Apricot, Ilex integra seed, olive seed. A method for producing a mosaic craft grain, characterized in that any one or more selected from seeds of various plants such as cherry seeds, mulberry seeds, olive seeds, harpoon seeds, pine seeds, sputum seeds, camellia seeds and the like. The method of claim 1,
The coating material of step b) is animal oil, edible adhesive, milk adhesive, petrolatum, higher fatty acids, castor oil, liquid paraffin, silicone oil, polymer silicone and derivatives thereof, squalane, ester oil, soybean oil, rapeseed oil, olive oil, safflower oil, Wheat germ oil, camellia oil, various herbal oils, castor oil, coconut oil, cottonseed oil, palm kernel oil, palm oil, peanut oil, soybean oil, rapeseed oil, flaxseed oil, rice bran oil, pine oil, sunflower seed oil Method for producing a mosaic craft grain, characterized in that using one or two or more. The method of claim 1,
Volatile materials of step c) are hydrocarbons, alcohols, ethers, ketones, butanol, amines, ethanol, formaldehyde, thinners, solvents, toluene, xylene, ethylene, styrene, acetaldehyde, hydrocarbons, alcohols, ethers, Ketone, butanol, amine, ethanol, formaldehyde, thinner, solvent, toluene, xylene, ethylene, styrene, acetaldehyde, gasoline, diesel, kerosene, benzene, acetylene, paraffin selected from the group Method for producing a grain for mosaic crafts. The method of claim 1,
Grain bug repellent of step c) naphthalene, chrysanthemum extract, capsaicin, capsicum extract, red pepper powder, capsaicinoid, benzyl nicotinate and capsaicin synthetic derivatives, cinnamon extract, green tea extract, organic insecticide, natural insecticide group Method for producing a mosaic craft grains, characterized in that using one or two or more selected. The method of claim 1,
The water-soluble colorant of step c) is a method for producing a mosaic craft grains, characterized in that using one or two or more selected from the group of natural, synthetic, and direct pigments. The method of claim 1,
Method of producing a mosaic craft grains, characterized in that the nano-silver in the volatile mixed solution of step c) is prepared, including 0.01% to 40% by weight of the solution or powder form with respect to the entire volatile mixed composition. The method of claim 1,
Perfume in the volatile mixed solution of step c) comprises 0.01% to 40% by weight based on the total composition of the volatile mixed composition, wherein the fragrance is linden flower, licorice, pererian, peppermint (peppermint), mint, lemon verbena, thyme, mate, marigold, orange peel, wild strawberry, orange bla Orange blossom, sage, basil, rosepink, marrow, black tea, jasmine, valerian, bergamot, Chamomile, cedarwood virginia, cinnamon, clary sage, cypress, funnel, frankincense, grapefruit, hyssop ), Juniper, lemon, lime, marjoram, myrrh, palmarosa, patchouli, rose Abs absolute, sandalwood, tea-tree, ylang ylang, ginger, rose, cardamom, green tea leaf, mugwort, chrysanthemum, Pine, fir, cinnamon, ginkgo, fig tree, polyphenol catechin, oak vinegar, forty one, two kinds of peppermint, Valerian, the production of mosaic craft grains, characterized in that it comprises a Way. The method of claim 1,
The preservative is contained in the volatile mixed solution of step c) in an amount of 0.01% to 20% by weight based on the total amount of the volatile mixed composition, wherein the preservative is benzoic acid, dehydroacetic acid, paraoxybenzoic acid ester (methyl paraoxybenzoate, butyl paraoxybenzoate). And the like), a mixture of methyl paraoxybenzoate, methylchloroisothiazolinone and methylchloroisothiazolinone, and one or two or more selected from phenoxyethanol. . The method of claim 1,
In addition, the coating material of step (b) is a method for producing a mosaic craft grains, characterized in that it is prepared by containing 0.000001 to 300% by weight of a water-soluble colorant based on the total weight of the dry grain.