KR102172159B1 - Eco-friendly agriculture nutrient spreader composition comprising sulfur, humic acid and fulvic acid - Google Patents

Abstract

The present invention relates to an eco-friendly crop nutrient spreader composition containing sulfur, humic acid and fulvic acid. More particularly, the present invention relates to an eco-friendly crop nutrient spreader composition containing sulfur, humic acid and fulvic acid, wherein the composition contains a sulfur component in order to increase sterilization action and productivity of agricultural crops, and contains humic acid and fulvic acid in order to enhance the absorption of nutrients by increasing the permeability of cell membranes, and optionally contains modified starch, sodium alginate, glucose, amino acids and glycerin. Accordingly, the modified starch is mixed to increase the viscosity of materials and improve the emulsion stability while maintaining the stickiness, which is the basis of the spreader. Sodium alginate is added to stabilize the tissue and at the same time reinforce the fixing and thickening function, and glucose, a monosaccharide, is added to enable absorption through the cell membrane during foliar fertilization. Nitrogen, which is an essential element for plant growth, is supplied by the addition of amino acids, and glycerin is added to prevent components from being lost from the leaf surface during foliar fertilization. The present invention provides excellent aforementioned effects including lubrication and moisturizing effects.

Description

Eco-friendly agricultural crop nutritional electrodeposit composition containing sulfur, humic acid and fulvic acid {ECO-FRIENDLY AGRICULTURE NUTRIENT SPREADER COMPOSITION COMPRISING SULFUR, HUMIC ACID AND FULVIC ACID}

The present invention relates to an eco-friendly agricultural crop nutritional electrodeposit composition containing sulfur, humic acid and fulvic acid, and more specifically, contains a sulfur component to increase sterilization and color of crops, and enhances the permeability of cell membranes to absorb nutrients. It relates to an eco-friendly agricultural crop nutritional electrodeposition composition containing sulfur, humic acid and fulvic acid containing humic acid and fulic acid in order to enhance the composition.

In general, pesticides are sprayed or sprayed on crops and attached to or absorbed by crops' leaves, stems, or pests, thereby controlling diseases, pests and weeds that may occur in the process of growing or storing crops, and physiological functions of crops. It is used in various forms such as fungicides, pesticides, growth hormone agents, herbicides, etc.

These pesticides are attached to the leaves, stems, and pests of crops, and are then easily lost by rain, wind, and moisture, so that they do not fully exhibit their effects. In general, an electrodeposition agent that improves the adhesion of pesticides and pesticides is used. They are mixed together as an auxiliary.

The above spreader not only improves the wettability and adhesion of pesticides to stems, leaves, and pests by lowering the surface tension of agricultural crops to which pesticides and pesticides are sprayed, and increasing the bonding force, but also pesticides can be applied to agricultural crops for a long time. By attaching it, agricultural crops are continuously protected by pesticides, and accordingly, the number of spraying or spraying of pesticides is reduced, and the use of pesticides is reduced, thereby improving economic efficiency and reducing environmental pollution caused by pesticides.

More specifically, important physical properties that the electrodeposition must have include emulsification, suspension, wettability, expansion, adhesion, and fixation. The emulsification and suspension properties are the property of uniformly dispersing pesticide ingredients in water, and if this is insufficient, uniform spraying is difficult, and it is the cause of poor efficacy and weakening.

The wettability and tightness are reduced, so it is also called wettability, but it is a property that the pesticide component does not come into contact with the solid surface and does not clump together, but diffuses and coats the solid surface evenly.

The adhesion is a property that increases the adhesion amount of the sprayed chemical liquid, and the fixation is a property that prevents it from being lost by rain, dew, wind, etc. after the chemical liquid applied to the crop surface is dried.

However, emulsification and suspension properties can be confirmed by visually identifying the physical properties of the pesticide composition itself before spraying the drug, but wetness, adhesion, and fixation are phenomena that occur between the sprayed chemicals and the surface of the crops. It cannot be easily identified and confirmed because various factors such as the type of are closely involved.

Therefore, the electrodeposition agent uses a surfactant to have the above-described physical properties, and since the properties of the electrodeposition agent are determined according to the type and amount of the surfactant used, an understanding of the electrodeposition agent is very important to increase the control effect of pests.

Such an electrodeposition agent is intended to improve both the wetness, adhesion, and fixation of the spray solution, but if the wettability is increased, the adhesion and fixation are relatively low, and if the adhesion is increased, the wettability tends to decrease.

Looking at the mechanism of action of the above-described electrodeposition agent, when the pesticide spray liquid contacts the surface of a crop or pest, first wetting and expansion are made, then a certain amount is lost and the remainder is attached, and finally, when the attached chemical solution is dried, it is fixed.

These series of processes are closely related to various factors such as the physical properties of the spray solution, the shape of the surface of the crop, and the weather conditions. Choose and use it correctly.

Looking at the conventionally used electrodeposition agents, DOS70 (Sodium bis(2-ethylhexyl)), LES270 (Alcohols, (C _12-14 ), ethoxylated, monoethers in Korean Patent Registration 10-1735427 (registration date May 08, 2017)) with sulfuric acid, sodium salts), SP90 (Alcohols, C _12-14 -secondary, ethoxylated), TDE7 (polyoxyethylene tridecyl ehter), TM15 (Ethoxylated cocoalkyl amines), and siloxane-based chemical-based components are known as electrodeposits. have.

However, as described above, the chemical substance-based electrodeposits have low wettability and adhesion effects, are vulnerable to humidity, wind, and temperature changes, and are not biodegradable and remain in the soil and rivers, causing environmental pollution.

In addition, as a nanosome type electrodeposition composition containing a lecithin-like emulsifier, an oil and an aqueous component according to Korean Patent Laid-Open Publication No. 10-2009-0077588 (published date July 15, 2009), the nanosome has oil components in water and , An aqueous component is dispersed in the oil droplets, the average oil droplet size is 0.1 to 0.5 μm, the lecithin-like emulsifier is a nonionic surfactant, and the oil is a hydrocarbon light oil. have.

However, the nanosome-type electrodeposition composition is composed of a lecithin-like emulsifier, oil, and aqueous components and does not contain harmful chemical components, but still has the wettability and adhesion effects of pesticides against leaves, stems, and pests of crops. It is insignificant, and there is a problem in that the process of manufacturing the nanosome-type electrodeposition agent is complicated.

In addition, in Korean Patent Registration 10-1906353 (registration date October 2, 2018), in the electrodeposition composition comprising a gum rosin derivative, a solvent, and a surfactant, the gum rosin derivative is ethylene oxide and propylene oxide ( propylene oxide) is a condensation product obtained by condensation reaction of gum rosin, and the gum rosin derivative includes a total of 7 moles of the ethylene oxide and the propylene oxide with respect to 1 mole of the gum rosin, the ethylene oxide and the propylene oxide 6: 1 And the electrodeposition agent composition comprises 25 to 59% by weight of the gum rosin derivative, 0.1 to 10% by weight of the surfactant, and 40 to 72% by weight of the solvent based on the total weight of the electrodeposition composition An electrodeposition composition comprising a gum rosin derivative is known.

However, the ethylene oxide exhibits strong sterilization or insecticidal power, and is used as a gas sterilizer for medical devices or packaging containers, and since ethylene oxide gas exhibits strong toxicity, it is prohibited to use it for the treatment of plants or food in Korea. The electrodeposition composition cannot be used.

In addition, 1 to 5 parts by weight of caustic garri known in Korea Patent Registration 10-1682440 (registration date November 29, 2016) in order to avoid environmental pollution from conventional chemical electrodeposition agents and to ensure food safety, 10 to 30 parts by weight of carola oil. An electrodeposition agent (brand name Jassam Oil) consisting of 20 to 40 parts by weight of water and 20 parts by weight of water is used by some farmers.

However, the electrodeposition agent requires caution when handling because KOH itself, the main material, is a very toxic substance, which causes damage when it comes into contact with the skin, and can corrode the esophagus and gastric mucosa when ingested.

In addition, when making the electrodeposition agent, if the water contains a lot of calcium or magnesium, the effect as an electrodeposition agent is insufficient because it affects the oil component made, so a water softener equipped with an expensive cation exchange resin is added in addition to the commonly used water. There was a problem to be prepared as an enemy.

Accordingly, the applicant of the present invention solves the above-described conventional problems, uses each component as an eco-friendly component, and at the same time nourishes environmentally friendly crops containing sulfur, humic acid and fulvic acid so that no harm to the soil occurs during foliar application. The electrodeposition composition was developed, and the present invention was developed.

[Patent Document [001] Korean Patent Registration 10-1735427 (Registration Date May 08, 2017) [Patent Document [002] Korean Patent Publication 10-2009-0077588 (Publication date July 15, 2009) [Patent Document [003] Korean Patent Registration 10-1906353 (Registration Date Oct. 2, 2018) [Patent Document [004] Korean Registered Patent 10-1682440 (Registration Date November 29, 2016)

In order to solve the above problems, the present invention contains a sulfur component in order to increase the sterilization action and color of agricultural crops, and increases the permeability of the cell membrane to enhance absorption of nutrient components, with humic acid and fulic acid ( Fulvic acid), and optionally, modified starch, sodium alginate, glucose, amino acids, and glycerin.

In order to solve the above problems, the present invention contains a sulfur component to increase the sterilization action and color of agricultural crops, and to increase the absorption of nutrients by increasing the permeability of the cell membrane, humic acid and fulic acid. ) Containing sulfur, humic acid and fulvic acid containing environmentally friendly agricultural crops nutritional electrodeposit composition as a solution to the problem.

The environmentally friendly agricultural crop nutrient electrodeposition composition increases the viscosity of the chemical solution, improves emulsion stability, and further includes a modified starch to maintain adhesion.

The environmentally friendly agricultural crop nutrient electrodeposition composition adjusts the pH of the alkalized soil, and further comprises a weakly acidic sodium alginate to improve the fixation of the modified starch.

The environmentally friendly crop nutrient electrodeposition composition further comprises glucose absorbed into the roots and leaves of crops in which the photosynthetic action of crops is insufficient, as a means of solving the problem.

The environmentally friendly agricultural crop nutrient electrodeposition composition promotes anabolic action as a nutrient source of crops, and is formulated to contain amino acids for high quality high yield and water washing recovery effect as a means of solving the problem.

The environmentally friendly agricultural crop nutrient electrodeposition composition further comprises glycerin to prevent curing, heat insulation and cold damage of the chemical solution as a means of solving the problem.

The environmentally friendly agricultural crop nutritional electrodeposit composition containing sulfur, humic acid and fulvic acid is 60% by weight of ionized water, 10% by weight of sulfur, 5% by weight of humic acid and fulvic acid, 6% by weight of modified starch, 6% by weight of sodium alginate, 5% by weight of glucose , A composition comprising 3% by weight of amino acids and 5% by weight of glycerin is used as a solution to the problem.

The environmentally friendly agricultural crop nutritional electrodeposition composition containing sulfur, humic acid, and fulvic acid of the present invention contains a sulfur component to increase the sterilization action and color of the crop, and increases the permeability of the cell membrane to enhance the absorption of nutrients. acid) and fulvic acid, and optionally, modified starch, sodium alginate, glucose, amino acids, and glycerin. By mixing the modified starch, the viscosity of the material is faithful to maintaining the stickiness, which is the basis of the electrodeposition agent. It increases emulsification stability, improves the stability of the tissue by adding sodium alginate, and reinforces the fixing and thickening function, and by adding glucose, a monosaccharide, it enables absorption through the cell membrane during foliar fertilization, and by adding amino acids. Nitrogen, which is an essential element for plant growth, is supplied, and glycerin is added to prevent components lost from the leaf surface during foliar fertilization, and has excellent effects of lubricating and moisturizing.

1 is a view showing the mechanism in the mitochondria of the sulfur Fe-S protein of the electrodeposition composition of the present invention

The present invention contains a sulfur component to increase the sterilization action and color of agricultural crops, and to enhance the absorption of nutrients by increasing the permeability of the cell membrane, sulfur containing humic acid and fulic acid, An eco-friendly agricultural crop nutritional electrodeposit composition containing humic acid and fulvic acid is characterized by the technical composition.

The environmentally friendly agricultural crop nutrient electrodeposition composition is characterized in that it further includes a modified starch to increase the viscosity of the chemical solution, improve emulsion stability, and maintain adhesion.

The environmentally friendly agricultural crop nutrient electrodeposition composition is characterized in that the composition further comprises sodium alginate, which is weakly acidic, to adjust the pH of the alkalized soil and to improve the fixation of the modified starch.

The environmentally friendly crop nutrient electrodeposition composition is characterized in that the composition further comprises glucose absorbed into the roots and foliar surfaces of crops in which the photosynthetic action of crops is insufficient.

The environmentally friendly agricultural crop nutrient electrodeposition composition is characterized by a technical composition that promotes anabolic action as a nutrient source of agricultural crops and contains amino acids for high quality high yield and water washing recovery effect.

The environmentally friendly agricultural crop nutrient electrodeposition composition is characterized in that the composition further comprises glycerin to prevent hardening of the chemical solution, heat insulation, and prevention of cold damage.

The environmentally friendly agricultural crop nutritional electrodeposit composition containing sulfur, humic acid and fulvic acid is 60% by weight of ionized water, 10% by weight of sulfur, 5% by weight of humic acid and fulvic acid, 6% by weight of modified starch, 6% by weight of sodium alginate, 5% by weight of glucose It is characterized in that the composition is composed of 3% by weight of amino acids and 5% by weight of glycerin.

Hereinafter, embodiments of the present invention and/or drawings will be described in detail so that those of ordinary skill in the art can easily implement the present invention. However, the present invention may be implemented in various different forms, and is not limited to the embodiments and/or drawings described herein.

First, the environmentally friendly agricultural crop nutritional electrodeposition composition containing sulfur, humic acid and fulvic acid of the present invention contains a sulfur component in order to increase the sterilization action and color of the crop, and enhances the absorption of nutrients by increasing the permeability of the cell membrane. It contains humic acid and fulic acid, and optionally, modified starch, sodium alginate, glucose, amino acids, and glycerin.

The sulfur is the most important of the physiological importance of sulfur, in light of the fact that 70% of the fields and 40% of the rice fields of Korea's farmland are in a state of sulfur deficiency.The most important of the physiological importance of sulfur is the Fe-S protein, which serves as a mediator in the electron transfer reaction of photosynthesis and nitrogen fixation.

As shown in Fig. 1, looking at the mechanism of the Fe-S Protein in the mitochondria, the Fe-S Protein is involved in the electron transfer reaction in the redox reaction of the mitochondrial electron transfer system. Complexes I and II of the electron transport system have a number of Fe-S proteins. Complex II oxidizes succinate and reduces auxiliary engyme Q. Complex II contains the electron carrier FAD and three Fe-S complexes. FAD is bound to the histidine residue of the enzyme, and the three Fe-S complexes are 4Fe-4S cluster, 3Fe-3S cluster, and 2Fe-2S cluster, respectively.

Therefore, when sulfur is deficient, the synthesis of proteins and amino acids is not performed, resulting in small leaves, and chloroplasts are not properly developed, resulting in a yellow-green tinge of leaves. Therefore, when sulfur is added, the hue of crops can be increased, so sulfur is added to the electrodeposition agent of the present invention.

.

The humic acid is composed of the following chemical structural formula, and is an organic matter extracted or deposited in the soil by alkali or acid. It is one of the components that make up corrosion and is an acidic substance. It is amorphous and has a yellowish brown or blackish brown color. Humic acid is mainly composed of carbon (50-60%), 3-5% hydrogen and 1.5-6% nitrogen. Humic acid has a very high cation substitution capacity (200~600me/100g). On the other hand, since humic acid is water-soluble combined with monovalent cations, it forms a biomineral that is quickly absorbed by crops by complexing with minerals in the soil with Fulvic acid as shown in the following figure.

In addition, the fulvic acid is composed of the following chemical structural formula, and the structure itself contains many oxygen molecules, and this part is replaced with nitrogen or amino acids, so that the material is easily permeable to the cell membrane. It is a physiologically stable, strong organic electrolyte that enhances vitality in all cells. It is a chelating agent that is highly effective even on cloudy days. It increases the permeability of cell membranes and increases absorption.

Therefore, as shown in the following figure, the humic acid and fulvic acid form a complex with metals (trivalent aluminum, divalent iron), etc., in the process of hydrolysis of hydrogen ions. It is produced to increase the acidity of the soil and adjusts the pH of the alkalized soil. Since the structure of the soil is improved with only a small amount of fertilization, fulvic acid's unique microbial decomposition function can be obtained even when it is spilled into the soil in the process of spraying the nutrient electrodeposition on the leaf surface, helping to improve soil quality.

In addition, during foliar fertilization, the same mechanism causes the chelating effect of nutrients that are difficult to pass through the cell membrane, thereby enhancing cell membrane permeability. Eventually, it helps the intracellular movement of nutrients, increasing the sugar content of the crops, accelerating growth, and increasing the yield.

The modified starch is an alpha starch (pregelatinized starch) made by dispersing the hydrogen bonds of starch.Since it has excellent solubility in cold water and excellent transparency, it changes to an opaque state when sprayed on crops to dry, thereby minimizing the disadvantage of lowering the transmittance of light. It has the advantage of having excellent adhesion while doing it. In addition, since it has excellent solubility, there is no phenomenon of clogging the nozzle when diluted and sprayed. The advantage of not preventing photosynthesis while forming a physical protective film by using the properties of gelatinized alpha starch, rather than surfactant separation that occurs when chemical electrodeposition agents are used in combination with pesticides.

The sodium alginate (Alginic acid) is composed of the following chemical structure, mainly contained in kelp, seaweed, etc. Sodium alginate, called seaweed acid, is a weak acid in the form of a chain with the molecular formula (C6H8O6)n. Therefore, in the case of foliar spraying, although foliar spraying is the main purpose, it is not at all possible to lose it to the soil, so it is unavoidable to think about the effect of the residues dropped off during foliar spraying on the soil.Alginic acid itself is weakly acidic, so alkalinization is not possible. It plays a role in controlling the pH of the soil. In addition, since it exists in the soil in an alkaline state, it promotes the ionization of substances that do not take place in the plant to penetrate the cell membrane, so it has the effect of causing a change in the quality of the crop itself and the soil itself. As it increases the viscosity of other ingredients without being weakened, it has the effect of increasing the adhesion effect of alpha starch, thus increasing the adhesion of alpha starch.

In addition, in the case of plants, the glucose not only synthesizes glucose by photosynthesis by itself, but also breathes by decomposing glucose, which is a living energy source, like animals. On the other hand, animals are heterotrophic organisms that consume nutrients from other sources, whereas plants produce and consume nutrients by themselves.

Therefore, it can be said that plants are effective if they can directly absorb glucose, which is an energy source, more than they consume. In particular, in the case of a tropical night with high temperatures, the consumption of glucose is extreme because it performs vigorously breathing even at night. Plants obtain glucose through carbon assimilation, but it is of great help to plants when they are absorbed directly from cells without undergoing such photosynthesis.

In particular, when the roots are bad or weak individuals, glucose seems to be effective. Also important is that glucose is a monosaccharide. It has been said from time immemorial that given sugar water to plants grows healthy. However, no one actually uses sugar. Because sugar is a disaccharide and has a large molecular weight, it cannot pass through the cell wall of the root or the cell membrane of the leaf, and eventually the plant cannot absorb it. On the other hand, glucose is a monosaccharide and has a very small molecular weight, so it easily passes through cell walls or cell membranes and is absorbed by plants.

Glucose solution is effective not only by giving it to the dust, that is, the root, but also by spraying it on the leaves. Today's terrestrial plants were seaweed and algae, such as kelp and seaweed, whose ancestors grew in the sea. Seaweeds and algae living in these seas are just spreading their roots on rocks to support their bodies. Unlike the roots of land plants, the roots of plants growing in the sea are not structured to absorb nutrients. The roots only fix the plant and do not absorb nutrients. Instead, it is absorbing nutrients directly through the body.

Therefore, plants that came to land do not lose their ability to absorb nutrients directly from the leaves, which is the ability of when they were in the sea. The reason that plant nutrients can be applied to the foliar surface is effective because they have not lost their old habits.

Originally, it is effective when given during plant growth, but can be given from early spring when the roots begin to work. For those with a short period of leaf development, such as Elegy, it is said that if given several times during that period, the bulbs will be enlarged for the next year.

These amino acids are the basis of all agricultural products. In a word, it is an essential ingredient for plant growth. In other words, amino acids are excellent in color, color enhancement, and maturation promotion effects of crops, and are effective in reducing even physiological cropping of crops by generating anti-stress of plants. In particular, amino acids promote assimilation as a nutrient source of crops, and exhibit excellent effects in high-quality high yield and water washing recovery.

The glycerin is used for the effect of preventing hardening of the chemical solution, moisturizing, keeping warm and preventing cold damage.

[Preparation of eco-friendly agricultural crop nutritional electrodeposition composition of the present invention]

Each component was mixed as shown in the following [Table 1] to prepare an eco-friendly agricultural crop nutritional electrodeposition composition of the present invention.

ingredient Mixing ratio efficacy Ionized water 60% by weight Solvent brimstone 10 weight Sterilization, detoxification, nutrition supply Humic acid and fulvic acid 5% by weight Maintaining electrochemical balance of cells, absorbing minerals, increasing nutrient absorption rate by increasing cell membrane penetration, detoxifying pollutants Modified starch 6% by weight Increases adhesion and viscosity, and improves emulsion stability Sodium alginate 6% by weight Tissue stability, film formation glucose 5% by weight Nutrition supply amino acid 3% by weight Nutrient supply, pH change buffering action glycerin 5% by weight Lubrication, moisture maintenance

[Measurement of adhesion and state observation of the electrodeposition composition of the present invention]

The adhesion test of the [Example 1] electrodeposited composition was conducted. First, about 20 ppm of dye (blue) was added to the electrodeposition composition according to [Example 1], and after spraying it on an acrylic plate at a 45 degree angle from about 40 cm away with a spray gun, it was dried at room temperature for about 24 hours. . Subsequently, the acrylic plate sprayed with the electrodeposition composition in which the dye was mixed was stood at a right angle, sprayed with distilled water and left for 5 minutes, and then the amount of dye remaining was measured, and the adhesion was measured by repeating this three times It is shown in [Table 2]. In order to contrast with [Example 1], about 20 ppm of dye (blue) was added to distilled water to obtain [Comparative Example 1].

Artifact Initial adhesion Adhesion 1 Adhesion 2 Adhesion 3 Example 1 100 95 85 90 Comparative Example 1 100 35 25 30

As shown in [Table 2], it can be seen that the electrodeposited material of the present invention has excellent adhesion.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention. Accordingly, the embodiments and/or drawings disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments and/or drawings. . The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

Claims (7)

60% by weight of ionized water;
10% by weight of sulfur to improve sterilization and color of crops;
Humic acid and fulic acid 5% by weight for enhancing the absorption of nutrients by increasing the permeability of the cell membrane;
6% by weight of modified starch to increase the viscosity of the chemical solution, improve emulsion stability, and maintain fixation;
6% by weight of weakly acidic sodium alginate for adjusting the pH of the alkalized soil and improving the fixation of the modified starch;
5% by weight of glucose for absorption into the roots and foliar surfaces of crops with insufficient photosynthesis of crops;
3% by weight of amino acids for promoting anabolic action as a nutrient source of crops, high-quality high yield and water washing recovery effect; And
5% by weight of glycerin for preventing the curing of the chemical solution, keeping warm and preventing cold damage;
An eco-friendly agricultural crop nutritional electrodeposition composition containing sulfur, humic acid and fulvic acid, characterized in that it is composed of
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