KR20160135085A - Liquid fertilizer composite radiating far-infrared ray for crops and manufacturing proSess thereof - Google Patents

Abstract

The present invention relates to a liquid fertilizer composition for crops which radiates far-infrared rays so that far-infrared rays are emitted from the human body and thus can promote health of a consumer, and a manufacturing method thereof. The manufacturing method comprises: a first step of producing a far-infrared rays radiating solution; a second step of producing a wetting agent; a third step of producing a sulfur fermentation liquid; and a fourth step of mixing the sulfur fermentation liquid at the predetermined ratio.

Description

TECHNICAL FIELD [0001] The present invention relates to a liquid fertilizer composition for agricultural crops emitting far-infrared rays,

The present invention relates to a liquid fertilizer composition for crops which emits far-infrared rays and a method for producing the same. More specifically, the present invention relates to a liquid fertilizer composition for agricultural crops, (EM) effective microorganism, and a sulfur solution of the legal sulfuric acid solution, in which a pest-resistant aroma is avoided. When fertilizing the crops by containing the sterilization and insecticidal components obtained from natural plants at the same time as granting them, it is possible to promote the growth and development of the crops remarkably, to prevent various insect pests, Minerals such as vanadium, chromium, selenium, germanium and zinc may be added to the crops, and ultimately, when the consumer consumes the crops, The diabetes to prevent various adult diseases, of course, the present invention relates to agricultural manure composition and a manufacturing method for emitting far infrared rays so that one attempt can be made to improve the health of the consumer to ensure that the far infrared is emitted from the human body.

In general, a wide variety of fertilizers are used to fertilize soils and to increase yields by promoting the growth of crops grown in the soil.

These fertilizers are composed of nitrogen fertilizer, which is mainly composed of nitrogen (N), which is involved in the growth of leaves, and nitrogen fertilizer, (K), which is involved in the development and growth of roots, and potassium fertilizer, which is a main component of phosphorus fertilizer, and phosphorus fertilizer, Can be classified.

Examples of the nitrogen fertilizer include ammonium sulfate, ammonium chloride, urea, lime nitrogen, and ammonium nitrate. Representative examples of the phosphate fertilizer include superphosphate lime [Ca (H ₂ PO ₄ ) ₂ ] and potassium fertilizer include potassium chloride ) And potassium sulfate (K ₂ SO ₄ ) are representative.

On the other hand, various kinds of chemical pesticides such as germicide, fungicide and insecticide are used until the harvest of the crops from the germination point of the crops in order to eliminate harmful pests and damage to the crops grown in the soil or to grow and develop the agricultural products.

However, the above-mentioned chemical fertilizers and chemical pesticides are excessively used during the cultivation of the crops for a long period of time, so that the ecosystem is disturbed such as soil microorganisms and natural enemies are reduced, and the soil and water quality are contaminated. There is a problem that a harmful pesticide component remains.

Also, since such chemical pesticides are used over a long period of time, the pests become tolerant to chemical pesticides. As the time passes, the more pesticides are used or the more lethal and highly toxic pesticides are used, the more effective the control Environmental problems become more severe as they become available, and they become serious social problems that act as fatal hazards to humans directly ingesting crops.

In recent years, there has been a great demand for the development of environmentally-friendly agriculture, and the need for low-toxicity, non-toxic, non-polluting fertilizers, natural pesticides or biological pesticides.

Recently, adult diseases such as obesity, diabetes, hypertension, hyperlipemia and atherosclerosis have been rapidly increasing according to changes in dietary habits, and interest in crops such as fruits, vegetables and herbs that are effective in treating or alleviating symptoms is increasing .

(V), chromium (Cr), selenium (Se), germanium (Ge), zinc (Zn), and the like have been studied in a wide variety of studies on essential minerals along with balanced nutrition for a healthy body. There is growing interest in

The vanadium promotes the glucose transport of adipocytes and phosphorylates the insulin receptor

, It has been shown that it plays a role of insulin such as promoting phosphorylation of insulin pathway enzyme even in the absence of insulin and has an anti-diabetic effect even when insulin is not present at all. Therefore, 6-phosphatase (glucose-6-phosphatase) activity by changing the activity of insulin as a component or affecting glucose metabolism by acting like insulin and treating and preventing diabetes Lt; / RTI >

In addition, the vanadium is effective in preventing atherosclerosis by interfering with the biosynthesis process of cholesterol, and is known to be involved in the formation of bones, cartilage and teeth.

Larry C. Clark of the University of Arizona Cancer Center in the US has found that selenium diets reduce the overall cancer incidence in the United States by 37 percent and cancer mortality by 49 percent Has published results of a decade-long clinical trial.

In addition to strong antioxidant effects, selenium is an excellent anticancer drug that inhibits carcinogenesis and cancer cell growth. When selenium is deficient, it can cause cancer, accelerate aging, and cause arteriosclerosis .

These selenium have been shown to prevent 63% of prostate cancer, 58% of colon cancer and 46% of lung cancer, and are recognized as the single most noteworthy substance in the world as well as American society.

The germanium has a function of oxygen supply, regulating electron flow of body cells, enhancing immunity, promoting the production of interferon and endorphin, relieving pain, neutralizing acid, neutralizing heavy metals, brain cell activity, fatigue recovery and natural healing And organic germanium has been found to inhibit the activity of malignant tumors, improve osteoporosis to prevent bone fractures, and to be found in plants with pharmacological activities such as ginseng and wild ginseng In recent years, researches are being continuously applied to anticancer drugs, hepatitis treatment drugs, and immunosuppressive drugs.

On the other hand, it is known that when a specific mineral component is reinforced with respect to a crop used as a functional ingredient, it can exhibit a very excellent nutritional and pharmacological effect, so that nutrients and pharmacologically necessary components are easily absorbed into the human body. And to try to transfer or reinforce it.

However, there is very little research on a technique in which minerals such as vanadium, chromium, selenium, germanium, and zinc are contained, and sterilization and insecticidal components are contained in a solution for emitting far-infrared rays.

As an example of this related technology, Korean Patent Registration No. 10-10-1073887 (name: Sulfur fermentation broth and its production method, a plant disease therapeutic composition using the same, and a manufacturing method thereof, hereinafter referred to as "prior art 1" Was proposed.

The above prior art 1 is a method for producing a sulfur-containing liquid by pulverizing elvan and loess into powders, agitating and aging in water and wood vinegar to prepare a sulfur law solution, adding the sulfur law solution to a mixture prepared by mixing sulfur powder and molasses, And a fermentation step of fermenting the resultant obtained by the above step of legislating with a molasses, a fermenting microorganism, and a microbial activity solution in a fermenter ".

However, in the case of the prior art 1, there is a problem that the emission of the far-infrared rays is very small, so that the health improvement of the consumer can not be expected, and the production and the growth of the crops are not greatly affected.

Patent Document 1: Korean Registration Patent Publication No. 10-1073887, "Sulfur fermentation broth and its production method, composition for treating botanical disease using the same, and production method thereof ".

SUMMARY OF THE INVENTION The present invention has been made to solve such conventional problems and it is an object of the present invention to provide a microorganism which contains mineral components of vanadium (V), chromium (Cr), selenium (Se), germanium (Ge) (EM) Effective Microorganism is cultivated using a far infrared ray emitting solution and a sulfuric solution, and a fertilizer composition is produced by adding a flavor to the insect pest, The present invention provides a liquid fertilizer composition for a crop which emits a new far-infrared ray so that the growth and development of crops can be remarkably promoted when the fertilizer is applied to the crop by allowing sterilization and insecticidal components to be contained therein, will be.

It is another object of the present invention to provide a method for preventing minerals such as diabetes and the like caused by the action of minerals when a crop is ultimately consumed by consumers so that cultivated crops contain minerals such as vanadium, chromium, selenium, germanium and zinc And which emits a new far-infrared ray so as to make it possible to produce a liquid fertilizer.

It is still another object of the present invention to provide a liquid fertilizer composition for a crop, which emits far-infrared rays so that far-infrared rays are emitted in the human body when the harvested crops are consumed, thereby promoting health of consumers.

It is still another object of the present invention to provide a method for producing a safflower composition for crops which emits a new far-infrared ray having such a combined action.

In order to accomplish the above object, the present invention provides a method for preparing a liquid fertilizer composition for crops which emits far-infrared rays, comprising the steps of mixing vanadium (V), minerals of chromium (Cr), selenium (Se), germanium (Ge) A first step of preparing a far infrared ray emitting solution containing a component and culturing a useful microorganism (EM: Effective Microorganism); A second step of mixing an insect controlling liquid obtained from a natural plant with an edible oil and a far infrared ray emitting solution obtained in the first step to prepare an electrodeposition agent containing a sterilizing insecticidal component and emitting a pest-resistant flavor; A third step of preparing a sulfur fermentation broth by fermenting a sulfur solution with a far infrared ray emitting solution in which the useful microorganism obtained in the first step is cultivated and fermenting the legal sulfur solution with a useful microorganism; And a fourth step of mixing the far infrared ray emitting solution in which the useful microorganism obtained in the first step is cultured, the electrodeposition obtained in the second step and the sulfur fermentation liquid obtained in the third step at a predetermined ratio.

In the present invention, the first step may be a step of mixing a slurry containing a slurry of gypsum (scoria) containing vanadium (V), selenium (Se) and zinc (Zn), and one of germanium (Ge), guanyang, tourmaline, Or two or more far-infrared ray radiators are respectively powdered into a first powder having a small particle diameter, a second powder having a middle diameter and a third powder having a large diameter each having a nano particle size, ; The far infrared ray emitter powder of small particle size and the far infrared ray emitter powder of large particle size are put into the ion solution and stirred to make the far particle emitter of small particle size adhere to the surface of the far infrared emitter powder of large particle, A second step of preparing a composite powder body which emits far-infrared rays by repeating a process of making the composite powder a plurality of times; (EM) is cultivated in the far-infrared ray emitting solution filtered and discharged in the process of obtaining the composite powder emitting the far-infrared ray of the second stage, and the far infrared ray emitting solution containing the mineral component and the useful microorganism is cultured And a third step of performing the second step.

In the second step of producing the electrodeposition agent of the present invention, the ginkgo, the potato, the white horse, and the cinnamon are extracted with hot water to contain a sterilizing and insecticidal component, A first step of preparing a liquid; 20 parts by weight of the insect control liquid obtained in the first step is added to 100 parts by weight of any one of vegetable oil selected from canola oil, grape seed oil, sunflower oil and soybean oil, and the mixture is heated to 40 to 60 DEG C to make a cooking oil mixture A second step; 4 parts by weight of potassium hydroxide (KOH: caustic alkali) was added to 80 parts by weight of the far infrared ray emitting solution obtained in the first step, 20 parts by weight of the cooking oil mixture obtained in the second step was added thereto Followed by agitation at 25 to 40 DEG C for 3 to 15 days after sufficiently stirring so as to be thoroughly mixed.

In the third step of producing the sulfur fermentation broth according to the present invention, unoxidized sulfur powder is added in an amount of 10 to 20 parts by weight to 100 parts by weight of the far-infrared ray emitting solution in which the useful microorganism obtained in the first step is cultured, A first step of aging / decontaminating the sulfurized liquid at ~ 60 ° C for 24 to 72 hours to prepare a legal sulfurized liquid; A second step of adding 2 to 10 parts by weight of molasses and 0.5 to 5.0 parts by weight of salt to 100 parts by weight of the legal sulfuric acid solution; The fermented milk is fermented at 25 to 60 ° C for 24 to 72 hours to prepare a sulfur fermentation broth. The fermentation broth is prepared by transferring the mixed solution of the legal sulfur solution and molasses and sun-salt to a fermentation tank, adding and inoculating the useful microorganism stock solution at a rate of 1.0 to 5.0 parts by weight, It has three features.

In the present invention, the fourth step is a step of dissolving the useful microorganism obtained in the first step in an amount of 60 to 80% by weight of the far infrared ray emitting solution, 15 to 25% by weight of the electrodeposition obtained in the second step, Sulfur fermentation broth of 5 to 15% by weight.

The liquid fertilizer composition according to the present invention for producing crops according to the present invention comprises 60 to 80% by weight of the far infrared ray emitting solution produced by the above-mentioned process, 15 to 25% by weight of the far infrared ray emitting solution in which the useful microorganism is cultured, 15 to 25% % And contains minerals and microorganisms of vanadium (V), chromium (Cr), selenium (Se), germanium (Ge) and zinc (Zn), emits far infrared rays, It is characterized by containing insecticidal components.

The application of the present invention not only provides sterilization and insecticidal action against germs and insects harmful to crops because the liquid fertilizer composition contains sterilization and insecticidal components and sulfur extracted from natural plants, It is possible to increase the yield of crops much more than the conventional fermented fertilizer because the absorption of nitrogen and phosphoric acid is accelerated due to the inclusion of various mineral components useful for the fermentation and toxicity of the sulfur component, And nutrients of sulfur and phosphorus and potassium are accumulated in a large amount, and the taste is improved, so that it is possible to produce agricultural products of excellent quality.

 In addition, the liquid fertilizer composition for crops which emits the far-infrared ray according to the present invention is rich in useful microorganisms and contains a substance emitting far-infrared rays, so that when the fertilizer is applied to crops, the soil is not acidified. In case of harvested crops The meat quality is improved, the nutritional content is increased, and the storage stability is improved, so that the quality is not significantly deteriorated even after long storage.

In addition, since the harmful microorganisms contained in the soil are killed or suppressed by the sterilization and insecticidal function of the sulfur component contained in the liquid composition, the soil can be disinfected and the useful microorganisms in the soil can be activated, do.

In addition, when the present invention is applied to a crop cultivated with trace minerals such as vanadium, selenium, chromium, germanium, and zinc, it flows into the human body when a consumer consumes the crop, It can prevent various adult diseases such as diabetes, and also promotes metabolism as far infrared ray is emitted in the human body, thereby improving the health of the consumer.

Hereinafter, preferred embodiments of the present invention will be described in detail.

The method for producing a liquid fertilizer composition for crops which emits far-infrared rays according to the present invention comprises a first step of producing a far infrared ray emitting solution, a second step of producing an electrodeposited agent, a third step of producing a sulfur fermentation liquid, And a fourth step of mixing the sulfur fermentation broth.

The far infrared ray emitting solution produced in the first step contains minerals such as vanadium (V), chromium (Cr), selenium (Se), germanium (Ge) and zinc (Zn) Lt; / RTI >

In order to produce the far-infrared ray emitting solution in the first step, a scoria containing a vanadium (V), a selenium (Se) and a zinc (Zn) and a germanium (Ge), a gemite, a tourmaline, And elvan are selected from a first powder having a small particle diameter having a nano particle size, a second powder having a middle diameter and a third powder having a large diameter, And each is pulverized (Step 1).

Then, the far infrared ray emitter powder having a small particle size and the far infrared ray emitter powder having a large particle size are put into a colloid silver (Ag ⁺ ) solution and stirred to prepare a far infrared ray emitter powder having a small particle size, And then filtration and drying are repeated a plurality of times to produce a composite powder which emits far-infrared rays (second step).

In the second step, a far-infrared ray emitting solution containing vanadium (V) and minerals of chrome (Cr), selenium (Se), germanium (Ge) When EM (Effective Microorganism) is cultured in this far-infrared ray emitting solution, a far-infrared ray emitting solution containing a mineral component and cultivating a useful microorganism is obtained (Step 3).

In the third step, rice bran, wheat bran and brown rice powder serving as a medium for useful microorganisms are added to a far infrared ray emitting solution containing minerals, followed by inoculation with a stock solution of useful microorganisms, When anaerobic fermentation is carried out at 40 ° C for 24 to 74 hours, a far infrared ray emitting solution containing minerals such as vanadium, selenium, germanium and zinc and useful microorganisms is obtained.

In the present invention, the Jeju pine mushroom applied as a far-infrared ray emitter is widely distributed in the volcanic area of Jeju Island and is rich in minerals such as vanadium, selenium, zinc, chromium and magnesium, and the main crystal phase is plagioclase, pyroxene ) and is constituted by magnetite (Hematite), the mineral content of the total _{SiO 2 + Al 2 O 3 +} Fe 2 O 3 is to be released reaches to 72-79%, far infrared rays even at least 92%.

In this kind of Jeju cluster, titanium dioxide which is not found in yellow clay, jade, elvan, germanium, etc. is contained in 3 ~ 7% in its natural state and can act as a photocatalyst itself. As holes can be moved continuously, they are semi-permanently antibacterial, sterilizing and deodorizing effect, and have excellent organic matter decomposition and superhydrophilic function, and are excellent in heavy metal adsorption power.

The present invention relates to the above-mentioned gneiss stone, which is a kind of feldspar, called gama feldspar, which is present in a mine formed by high-temperature hydrothermal process during the crustal change process.

The major components of the gyoyang stone are 75.50% of silicon oxide, 14.00% of aluminum oxide, 4.50% of potassium oxide, 4.30% of sodium oxide and 0.34% of calcium oxide.

There are two types of white ore in the Guiyang stone. The white emerald-type emerald has the highest emissivity at 96% at room temperature (25 ℃) and the highest in natural ore. The red- cc is the highest level among natural ores.

According to the March 2000 Water Science Study Group, among the 25 functional materials at home and abroad, the maximum amount of anion generated by the sediments is 9,451 (pcs / cc) and the average value of the original emissivity is 96% , Natural functional materials such as water purification, paints, moisturizers, filters, cosmetics, bath salts, bed linen, functional carpets and so on.

Natural germanium seat main component is applied to the present invention, _{SiO 2 70 ~ 80%, Al} 2 O 3 13 ~ 22%, Fe 2 O 3 0.04 ~ 2%, CaO 0.03 ~ 3.0%, MgO 0.4% less than, K ₂ O 0.06 to 4%, Na ₂ O 0.1 to 3%, and H ₂ O 1.5 to 5%.

In addition, Effective Microorganism (EM) applied to the present invention is a combined microorganism preparation in which 80 groups of 10 kinds of microorganisms beneficial to humans are cultured in combination with many microorganisms existing in the natural world, and lactic acid bacteria group, yeast bacteria group ), Photosynthetic bacteria (group), actinomycetes (), and fungi (group).

 These useful microorganisms are tuberous anaerobic bacteria that can grow regardless of the presence or absence of oxygen. The photosynthetic bacteria obtain the carbon source from the organic material, the energy from the sunlight, the lactic acid bacteria and the yeast obtain the carbon source from the organic material, Get energy.

The fermented environment is formed by producing antioxidant enzymes, antioxidants, amino acids, vitamins, saccharides, organic acids, minerals and various enzymes and hormones when the useful microorganisms are in the process of being corrupted or inoculated into an environment where corruption is expected, (Herias et al., Clin. Exp. Immunol., 116, 283-290, 1999), which inhibits the proliferation of harmful microorganisms and enhances beneficial microbial growth and eliminates the toxicity of harmful substances.

On the other hand, the electrodeposit produced by the second step of the present invention is mixed with a pest control liquid obtained from a natural plant, edible oil and a far infrared ray emission solution obtained in the first process, Make sure to release a fragrance.

In order to produce the electrodeposit in the second step, the ginkgo, pork potato, white pearl and cinnamon are firstly extracted with hot water to contain a sterilizing and insecticidal component, (Step 1).

Then, 20 parts by weight of the pest control solution obtained in the first step was added to 100 parts by weight of any one of the edible oils selected from canola oil, grape seed oil, sunflower oil and soybean oil, and the mixture was heated to 40 to 60 DEG C, The mixture is made (Step 2).

Then, 4 parts by weight of potassium hydroxide (KOH: caustic alkali) was added to 80 parts by weight of the far infrared ray emitting solution obtained in the first step, and the cooking oil mixture obtained in the second step was added to 20 parts by weight And then aged at 25 to 40 DEG C for 3 to 15 days to obtain an electrodepositing agent containing a sterilizing and insecticidal component and emitting a pest-resistant flavor (Step 3).

The sulfur fermentation broth produced in the third step is obtained by subjecting sulfur to a far infrared ray emitting solution in which the useful microorganisms obtained in the first step are cultured and fermenting the legal sulfurized solution as a useful microorganism.

In order to produce the sulfur fermentation broth in the third step of the present invention, firstly, unoxidized sulfur powder is added to 100 parts by weight of the far infrared ray emitting solution in which the useful microorganism obtained in the first step is cultured, at a ratio of 10 to 20 parts by weight And aged and decontaminated at 25 to 60 DEG C for 24 to 72 hours to prepare a legal sulfur solution (first step).

The sulfur used in the present invention is absorbed in the form of SO ₄ from the roots of plants or crops and reduced in the body to be used as an element of organic compound synthesis. It constitutes the protoplasm of cells and plays an important role in cell respiration do.

When the far infrared ray-emitting solution in which the beneficial microorganism is cultured is mixed with the sulfuric acid at the above-mentioned ratio and left at a temperature of 25 to 60 ° C for 24 hours, the far-infrared ray emitting solution in which the useful microorganisms, From the part, the unadulterated sulfur begins to sink slowly.

From the second day onwards, stir the mixture of unoxidized sulfur and far-infrared radiation containing beneficial microorganisms using a wooden stick or a stirrer.

This allows the unoxidized sulfur and the far infrared ray emitting solution containing the useful microorganisms to be rapidly mixed, and at the same time, an appropriate amount of air is introduced into the mixed solution, thereby inducing the activation of aerobic microorganisms in the microorganisms of the useful microorganism group .

The photosynthetic bacteria which are useful for the photosynthetic activity of the above-mentioned beneficial microorganism group and which are useful for plant hard and healthy, have the highest activity at 25 to 60 ° C, the activity is slower as the temperature is lowered, It is preferable to keep the temperature at 25 to 60 ° C at all times.

Of course, some microorganisms such as lactic acid bacteria and yeast are highly active even at temperatures exceeding 60 ° C. However, since photosynthetic bacteria are essential for the growth and development of plants, the above-mentioned unfertilized sulfur powder and the far- The maximum temperature of the mixture of solutions should not exceed 60 ° C.

In order to keep the mixture of the unoxidized sulfur powder and the far infrared ray emitting solution containing the useful microorganisms at the proper temperature, a temperature control device is installed in the heating device of the storage tank.

At this time, if the heating device is directly charged into the storage tank and heated, the useful microorganisms in the vicinity of the heating device may be killed due to the high temperature. Therefore, it is preferable that the heating device is installed outside the storage tank and indirectly heated.

On the other hand, the lactic acid bacteria of the useful microorganisms are most active when they are acidic near pH 4. These useful lactic acid bacterial strains inhibit the growth of harmful microorganisms or inhibit feeding activity when they are used in soil and crops, It plays a role in killing microorganisms.

The unoxidized sulfur components in the mixed state of the far infrared ray emitting solution containing such useful microorganisms can kill the harmful microorganisms of the soil and the crops and inhibit the multiplication and activate the useful microorganisms by the unique sterilization and insecticidal power .

In addition, the unoxidized sulfur component is used for metabolic activities of some lactic acid bacteria in the microorganisms of useful microorganisms, and the metabolites produced in this process are obtained by solubilizing the refractory substances in the soil and using them as nutrients will be.

Then, 2 to 10 parts by weight of molasses and 0.5 to 5.0 parts by weight of a salt of the sunflower are added to 100 parts by weight of the above-mentioned sulfuric acid solution, and mixed (step 2) Molybdenum and sun-dried salt are transferred to a fermentation tank, and the useful microorganism stock solution is added and inoculated at a rate of 1.0 to 5.0 parts by weight and then fermented at 25 to 60 ° C for 24 to 72 hours to produce a fermentation broth (Step 3) .

In the fourth step of the present invention, 60 to 80% by weight of far infrared ray emitting solution in which the useful microorganisms obtained in the first step are cultured and 15 to 25% by weight of the electrodeposition obtained in the second step are obtained in the third step The sulfur fermentation broth is mixed in an amount of 5 to 15% by weight.

The liquid fertilizer composition for crops which emits far-infrared rays according to the invention produced according to the first to fourth steps comprises 60 to 80% by weight of the far-infrared ray emitting solution in which the useful microorganisms are cultured, 15 to 25% by weight of the electrodeposited agent, (V), chromium (Cr), selenium (Se), germanium (Ge), zinc (Zn) and useful microorganisms in a mixed state of 5 to 15 wt% Contains antiseptic and insecticides extracted from natural plants.

Example 1

- Preparation of far infrared ray emitting solution cultured with useful microorganisms and analysis of content of mineral components -

700 g of germanium (Ge), 700 g of germanium (Ge) and 600 g of gemite were mixed with 700 g of a small diameter (small diameter) having different nano particle sizes (Ag ⁺ ) solution, and the mixture is stirred to form a small particle size far infrared ray (Ag ⁺ ). The powder of the emitter is adhered to the surface of the far-infrared emitter powder of large particles, and then the process of filtration and drying is repeated a number of times to collect the complex powder which emits the far-infrared rays and at the same time, 20 liters of the far- Respectively.

To 20 liters of the obtained far infrared ray-emitting solution, 1 kg of saccharides and 0.5 kilograms of sun-salt were added and mixed into a fermenter, 500 g of a useful microorganism solution was inoculated, and fermented at 30 ° C for 6 days to cultivate useful microorganisms To prepare a far infrared ray emitting solution.

The far infrared ray emitting solution in which the useful microorganisms thus obtained were cultured was analyzed by ICPAES. The results are shown in Table 1 below.

The content of mineral components contained in the far-infrared ray emitting solution division V Se Ge Cr Mn Zn Mg Fe
ingredient
(ppm) 0.834 0.086 0.254 0.184 384 68 12 118

As can be seen in Table 1, the far-infrared ray emitting solution obtained in Example 1 contains various minerals extracted from Jeju mushroom, Germanium stearate and Guiyang stone. Among them, vanadium is 0.834 ppm, selenium is 0.086 ppm, It was analyzed that germanium contained 0.254ppm, chromium 0.184ppm, manganese 384ppm, zinc 68ppm, and other magnesium and iron contents 12ppm and 118ppm, respectively.

Example 2

- Preparation of Lipid Composition which emits far infrared rays -

(1) Preparation of electrodeposition agent

500 ml of a pest control liquid containing germicidal and insecticidal components and extracting harmful insect pests is prepared by extracting ginkgo, pork potato, white pearl, and cinnamon with hot water. To 1 liter of sunflower oil The pest control solution was added in a ratio of 200 ml and heated to 50 캜 to prepare a cooking oil mixture.

Then, 4 g of potassium hydroxide (KOH) and 20 ml of the cooking oil mixture were added to 800 ml of the far-infrared ray emitting solution obtained in the same manner as in Example 1, Lt; 0 > C for 10 days to prepare an electrodeposit.

(2) Production of sulfur fermentation broth

15 g of the unoxidized sulfur powder was added to 1 liter of the far infrared ray emitting solution in which the useful microorganisms obtained in the same manner as in Example 1 were cultured and aged and decontaminated at 40 DEG C for 48 hours to prepare a sulfurized liquid 7 g of molasses and 3 g of sodium chloride were added to 1 liter of the above-mentioned sulfuric acid solution, and the mixed solution of the above-mentioned sulfuric acid solution and molasses and sun salt was transferred to a fermentation tank, Was added and inoculated at a rate of 4 ml, and fermented at 35 DEG C for 72 hours to prepare a sulfur fermentation broth.

(3) mixing of the far infrared ray emitting solution in which the useful microorganism is cultured with the electrodeposited and sulfur fermentation liquid

70% by weight of the far infrared ray emitting solution in which the useful microorganisms prepared in Example 1 were cultured, 20% by weight of the electrodeposited obtained in Example 2, and 10% by weight of sulfur fermentation broth were mixed, and the mineral components and useful microorganisms were contained , A liquid fertilizer composition for crops which emits far-infrared rays according to the present invention containing a sterilizing and insecticidal component was prepared.

Experimental Example 1

The liquid composition for crops (the present invention material) emitting far-infrared rays according to the present invention prepared in Example 2 was sprayed on a 9-year-old apple tree (variety: Fuji, Fuji) (Comparative material) was applied to the soil around the 9-year-old apple trees of the same variety for comparison, and then the average weight and sugar content of the 60 apples of the upper apples after harvesting were measured. The results are shown in the following table Respectively.

division The present invention material Comparative material Mean and Height (g) 258.7 250.4 Sugar content (Brix0 12.6 12.1

As can be seen from the above Table 2, when the fertilizer composition for crops (the present invention material) emitting the far-infrared ray according to the present invention is fertilized, compared to the case where the general compound fertilizer (comparative material) is fertilized in the soil, And the sugar content was remarkably superior.

Meanwhile, the liquid fertilizer composition for crops that emits far-infrared rays according to the present invention can control various germs and pests by using the sulfur component and the insect control liquid extracted from natural plants, and is useful for controlling aphids.

Since the liquid composition for crops emitting the far-infrared ray according to the present invention contains sulfur component and useful microorganisms, the control effect of the aphid in pest was 76.0% after 3 days and 82.9% after 7 days, The control effect of 85.9% was observed after 7 days of spraying.

In addition, the liquid fertilizer composition for crops which emits the far-infrared ray according to the present invention can sterilize and insecticide, besides it can feed the crops at the same time, thereby strengthening the cell membranes of the crops and smoothly absorbing the nutrients in the cells. But also the antioxidant activity of the plant increased the preservation of the crops, and the effect of growing and improving the quality of the crops was improved.

Experimental Example 2

In the case of fertilizing a potting composition for crops which emits far-infrared rays according to the present invention prepared in Example 2 (Example of the present invention), a case of using general compound fertilizer (Comparative Example) and a case of using no insecticide and fertilizer (Control), respectively.

In this case, in the present invention and the comparative example, each composition was diluted with 20 times of water and then sprayed four times in each of two months.

At this time, the number of diseased plants per 100 paprika crops, the weight of red peppers harvested at 100 weeks, and the yield of red pepper were measured, and the results are shown in Table 3 below.

division Order of disease occurrence Number of harvested peppers () Weight of harvested pepper
(Kg) Remarks The present invention 0
4350
65 Comparative Example 0 4120 61.5 Control group 0 3960 59.4

As can be seen from the above Table 3, the total yield of red pepper cultivated by using the safflower composition for crops emitting the far-infrared ray according to the present invention and the weight of red pepper were significantly superior to those of Comparative Examples and Controls.

Experimental Example 3

The following tests were carried out in the following manner in which the crops were fertilized with leaves and plants using the liquid fertilizer (the present invention material) emitting the far-infrared rays according to the present invention, the commercially available Fertilizer 4, and the conventional chitin and chitosan-based liquid fertilizer.

The test cultivars were divided into two groups according to the cultivation method of vegetables. The vegetable cultivars were melon (seeds of okwon), cucumber (seeds), and radish (seeds of Daijo) The same amount of soil collected in the same place was immersed in the soil, and the initial soil moisture was adjusted to about 50% and then sown.

The safflower, cucumber and radish seedlings after seeding after sowing were divided into two types, namely, a loess plant and a facility medium (vinyl house), and 20 days after the planting, the liquid fertilizer emitting the far infrared rays of the present invention, the fourth species fertilizer and the chitin / And 50 times at 5-day interval, and 3 times at 50 times.

The fruits were harvested on the same day at the harvesting time of each of the cultivars after the above-mentioned planting, and the fruit weight was measured. The results are shown in the following Table 4.

division How to grow kind Fertilizer Type 4 Chitin / chitosan The present invention material
Experiment 1
Fruit weight
(g)
facility
melon
412
420
683
Experiment 2
Fruit weight
(g)
Nogi
cucumber
332
363
492
Experiment 3
Fruit weight
(g)
facility
radish
199
237
398

As shown in Table 4, it can be seen that the melon cultivated with the crop liquid for emitting far-infrared ray according to the present invention, and the cucumber and radish grown therefrom are significantly heavier than those using different fertilizers of different weights .

As can be seen from the above experimental example, the potting composition for crops which emits far-infrared rays according to the present invention contains sterilizing and insecticides extracted from natural plants and sulfur, In addition to sterilization and insecticidal action, cultivated crops contain various minerals and toxic sulfur compounds useful for the human body.

In addition, the liquid fertilizer composition for crops which emits the far-infrared ray according to the present invention contains abundant useful microorganisms and contains a substance emitting far-infrared rays, so that when the fertilizer is applied to crops, the soil is not acidified, As a result, the absorption of nitrogen and phosphoric acid is promoted, so that the yield of crops can be increased much more than the conventional fermented fertilizer.

In addition, the liquid fertilizer composition for crops which emits the far-infrared ray according to the present invention contains sulfur, so that the nutrients of sulfur, phosphorus and potassium are accumulated in the fruit or the fruit part of the crop, .

In addition, the harvested crops have a harder meat quality, an increased nutritional content, and improved shelf-life.

Claims (6)

And a first infrared ray emitting solution containing minerals of vanadium (V) and chromium (Cr), selenium (Se), germanium (Ge) and zinc (Zn), and a useful microorganism (EM: Effective Microorganism) A process;
A second step of mixing an insect controlling liquid obtained from a natural plant with an edible oil and a far infrared ray emitting solution obtained in the first step to prepare an electrodeposition agent containing a sterilizing insecticidal component and emitting a pest-resistant flavor;
A third step of preparing sulfur fermentation broth by fermenting a sulfurized solution with a useful microorganism by using a far infrared ray emission solution obtained by culturing the useful microorganism obtained in the first step;
And a fourth step of mixing the sulfuric acid fermentation broth obtained in the third step with the original saline release solution in which the useful microorganisms obtained in the first step are cultured, the electrodeposition obtained in the second step, and the fourth step Of the total weight of the composition. The method according to claim 1,
The first step may be performed by mixing one or two or more selected from the group consisting of gypsum (Ge), gypsum, tourmaline, and elvan, which contains vanadium (V), selenium (Se) A first step of separately pulverizing the far infrared ray radiator into a first powder having a small nano particle size, a second powder having a middle diameter and a third powder having a large diameter each having a nano particle size;
The far-infrared emitter powder of small particle size and the far-infrared emitter powder of large particle size are put into the ion solution and stirred to make the far-infrared emitter powder of small particle size adhere to the surface of the far-infrared emitter powder of large particle, A second step of preparing a composite powder body which emits far-infrared rays by repeating a process of making the composite powder a plurality of times;
(EM) is cultivated in the far-infrared ray emitting solution filtered and discharged in the process of obtaining the composite powder emitting the far-infrared ray of the second stage, and the far infrared ray emitting solution containing the mineral component and the useful microorganism is cultured And a third step of irradiating the ultraviolet rays with ultraviolet rays. The method according to claim 1,
The second step of producing the electrodeposition is to prepare an insect control solution containing germicidal and insecticidal components by extracting hot water from the ginkgo, potato, white pearl and cinnamon, ;
20 parts by weight of the insect control liquid obtained in the first step is added to 100 parts by weight of any one of vegetable oil selected from canola oil, grape seed oil, sunflower oil and soybean oil, and the mixture is heated to 40 to 60 DEG C to make a cooking oil mixture A second step;
4 parts by weight of potassium hydroxide (KOH: caustic alkali) was added to 80 parts by weight of the far infrared ray emitting solution obtained in the first step, 20 parts by weight of the cooking oil mixture obtained in the second step was added thereto And then aging the mixture at 25 to 40 DEG C for 3 to 15 days. The method of manufacturing a safflower composition for crops according to claim 1, The method according to claim 1,
In the third step of producing the sulfur fermentation broth, 10 to 20 parts by weight of unoxidized sulfur powder is added to 100 parts by weight of the far infrared ray emitting solution in which the useful microorganism obtained in the first step is cultured, For 24 to 72 hours to produce a sulfuric acid solution;
A second step of adding 2 to 10 parts by weight of molasses and 0.5 to 5.0 parts by weight of salt to 100 parts by weight of the legal sulfuric acid solution;
A third step of transferring the mixed liquid of the legal sulfuric acid solution and the molasses and the sun salt to the fermentation tank, adding and inoculating the useful microorganism stock solution at a rate of 1.0 to 5.0 parts by weight, and fermenting the mixture at 25 to 60 DEG C for 24 to 72 hours Which is characterized in that it emits far-infrared rays. The method according to claim 1,
In the fourth step, 60 to 80% by weight of the far infrared ray emitting solution in which the usable microorganism obtained in the first step is cultured, 15 to 25% by weight of the electrodeposition obtained in the second step, the sulfur fermentation liquid obtained in the third step To 5 to 15% by weight based on the total weight of the composition. Wherein the fermentation broth is prepared by the process according to claim 1, wherein the far infrared ray emitting solution in which the useful microorganism is cultured is mixed with 60 to 80 wt%, the electrodeposit 15 to 25 wt%, and the sulfur fermentation broth 5 to 15 wt% Characterized in that it contains minerals and microorganisms of chromium (Cr), selenium (Se), germanium (Ge) and zinc (Zn), emits far infrared rays and contains sterilization and insecticidal components extracted from natural plants A potting composition for crops which emits far infrared rays.