KR102496204B1 - Liquid fertilizer manufacturing method of organic natural hormones for plant activation and promoting plant growth - Google Patents

Abstract

The present invention is a manufacturing method for forming a liquid fertilizer used in land cultivation and hydroponic cultivation for growing crops and fruit plants: seaweed component composition step of forming a seaweed mixture by mixing and mixing seaweed powder and water (S10) ; A natural ingredient composition step of mixing fulvic acid and silicic acid-based minerals and water to form an environmentally friendly natural ingredient mixture; A sugar component composition step of mixing molasses and water to form a sugar mixture; A mixing step of first introducing the seaweed mixture and the natural ingredient mixture into a mixing container (A), and mixing the sugar mixture, microorganisms, and water in a state in which a primary mixture is formed; and a completion step of forming a finished natural hormone liquid fertilizer by mixing the neutralizing agent again with the primary mixture of the mixing step to neutralize bicarbonate produced in the process of cultivating crops.
According to the present invention, by using it together in a liquid phase in various agricultural cultivation processes such as land cultivation, hydroponic cultivation, and nutrient solution cultivation for growing plants such as trees, crops, and fruits, the growth of plants is greatly promoted while the vitalization process of plants is activated. On the other hand, it is possible to actively promote the physiological activation of plants by participating in the process of increasing hormones and biosynthesis of enzymes in plant organisms, and also maximizing the activation of various plants and agricultural products by using natural hormones provide an effect.

Description

Liquid fertilizer manufacturing method of organic natural hormones for plant activation and promoting plant growth}

The present invention relates to a method for manufacturing a liquid fertilizer of organic natural hormones for plant activation that promotes plant growth, and more specifically, to cultivate trees, bushes, crops, fruits, grass, etc. By using it together in liquid form in various farming processes such as land cultivation), hydroponic cultivation, and nutrient solution cultivation, it greatly promotes plant growth and greatly activates the vitalization process of plants. By efficiently participating in the increase of hormones and the biosynthetic process of enzymes, the physiological activation of plants can be actively promoted, and the activation of various plants and agricultural products can be maximized by using natural hormones. It relates to a method for producing a liquid fertilizer of organic natural hormones for plant activation that promotes plant growth.

As is well known, various types of fertilizers are being developed for the rapid development of industry, the increase in demand for quality agricultural products, and the improvement of productivity, and through this, the newly developed fertilizers are widely used and used. However, most of the existing fertilizers (including both powder and liquid fertilizers) tend to have slightly excessive or biased pesticide components, so when used in the cultivation process of land cultivation, hydroponic cultivation, and nutrient solution cultivation, soil fertility is deteriorated and soil and water are damaged. It is reported that the tendency of acidification is becoming more and more severe, and therefore, the agricultural land is gradually becoming more and more degraded as the usefulness or effectiveness of microorganisms and soil biosystems is greatly inhibited by the excessive use of these fertilizers. Moreover, it is not an exaggeration to say that existing fertilizers mainly play roles to control pests, but research on development methods that maximize plant activation is still at an insufficient level.

For example, according to Korean Registered Patent No. 1565035, 'a mixture of chard, briar shoots, and bamboo shoots in an equal ratio of 1:1:1 (w/w) and brown sugar mixed in equal amounts of 1:1 (w/w) each step of doing; Putting the mixture obtained above into a container, adding soju and naturally fermenting it for 2 weeks; A mixture obtained by mixing the fermented product obtained in the above step with humus soil, sea soil, volcanic ash, biotite, briquette ash, and lime calcium solution in an equal ratio of 1: 1: 1: 1: 1: 1 (w / w) and a weight ratio of 7: 3 ( w / w) and a liquid fertilizer (A) manufacturing process for promoting plant growth consisting of preparing a liquid fertilizer; A mixture of clover flower, daffodil flower, acacia flower, and raw wild grass leaves and flower cuttings in an equal ratio of 1:1:1:1 (w/w) and sugar in a weight ratio of 1:1 (w/w) Fermented in a container, but mixed with a mixture of night gate, cornus oil, and sanyak cuttings at an equal ratio of 1:1:1 (w/w) and mixed at an equal ratio of 1:1 (w/w), adding soju and naturally fermenting A liquid fertilizer for high yield (B) manufacturing process; A 1:1 (w/w) mixture of cuttings of mugwort, garlic, water parsley, ginger, cinnamon, angelica, and licorice is mixed with sugar in a 1:1 (w/w) ratio and fermented in a container. Soju is added and naturally fermented. (C) A method for producing a liquid fertilizer for plant growth promotion and water vapor, characterized in that it is prepared by mixing the liquid ratio A:B:C obtained through the manufacturing process at a weight ratio of 6:2:2 or 6:3:1.' present.

However, since the above method of manufacturing liquid fertilizer for plant growth promotion and steaming is used after adding soju, it is naturally fermented, so although a certain effect is insignificant, it is predictable. It is a pity that the growth rate, rapid effect, and yield of plants may rather decrease because it does not properly neutralize the composition of microscopic toxic substances present in the plant.

Korean Registered Patent No. 1565035 "Method of manufacturing liquid fertilizer for plant growth promotion and water increase"

The object of the present invention for fundamentally improving the conventional problems as described above is open-field cultivation (including land cultivation such as greenhouses), hydroponic cultivation, By using it together in the liquid phase in various agricultural cultivation processes such as hydroponic cultivation, it greatly promotes plant growth while greatly activating the plant's vitality process. Organic for plant activation that promotes plant growth that can actively promote the physiological activation of plants by involving them efficiently, and can maximize the activation of various plants and agricultural products by using natural hormones It is intended to provide a method for preparing a liquid fertilizer of natural hormones.

The present invention for achieving the above object is a liquid fertilizer used for outdoor cultivation (including land cultivation such as greenhouses), hydroponic cultivation, nutrient solution cultivation, etc. for growing various types of plants such as trees, bushes, crops, fruits, grass In the manufacturing method for forming: 30 to 50 wt% of seaweed powder provided with any one or a mixture of seaweed, kelp, hijiki, gasisari, capricorn, gamtae, agar, cheonggak, and chlorella in the form of a powder of 80 to 300 mesh; A seaweed component composition step of mixing 50 to 70 wt% of water with each other, immersing for 10 to 24 hours in a properly mixed state, and then mixing again to form a seaweed mixture; 30 to 45 wt% of fulvic acid, elvan, illite, diatomaceous earth, volcanic ash, benzonite, feldspar, kaolin, shell dust, either selected or mixed with one or more of them, but containing 60 to 70% or more of silicic acid 5-20wt% of minerals and 40-50wt% of water are mixed for 10-30 minutes, mixed properly until bubbling bubbles are generated, soaked for 12-24 hours, and then mixed again to create an environmentally friendly natural ingredient mixture Natural ingredient composition step of forming a; A sugar component composition step of forming a sugar mixture formed by mixing 40 to 60 wt% of molasses and 40 to 60 wt% of water; The above-mentioned seaweed mixture and natural ingredient mixture are first put into a mixing container, and then the saccharide mixture and aerobic microorganisms are used, but microorganisms and water in which any one or more of lactic acid bacteria, yeast bacteria, mold bacteria, actinomycetes, and photosynthetic bacteria are mixed with each other. In the state of sequentially adding, they are properly mixed with each other to form a primary mixture, wherein the primary mixture contains 3 to 8 wt% of seaweed mixture, 3 to 10 wt% of natural ingredient mixture, 2 to 6 wt% of sugar mixture, and 1 to 3 wt% of microorganisms. and 75 to 91 wt% of water are put into the mixing container and mixed, but the seaweed mixture and the natural ingredient mixture are first put into the mixing container and mixed properly, and then the saccharide mixture is additionally added and mixed again, and then microorganisms and water are mixed. A mixing step of adding again and mixing continuously for 24 hours at a temperature of 10 to 30 ° C for 4 to 7 days; And a neutralizing agent is mixed again to neutralize bicarbonate produced in the process of cultivating crops on the primary mixture of the mixing step to produce a liquid fertilizer of organic natural hormones for plant activation.

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On the other hand, prior to this, the terms or words used in this specification and claims should not be construed as being limited to ordinary or dictionary meanings, and the inventors use the concept of terms to explain their invention in the best way. Based on the principle that it can be properly defined, it should be interpreted as meaning and concept consistent with the technical spirit of the present invention. Therefore, the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention, and do not represent all of the technical ideas of the present invention, so various alternatives can be made at the time of this application. It should be understood that there may be equivalents and variations.

According to the present invention, trees, bushes, crops, fruits, and grass are combined in liquid form in various agricultural cultivation processes such as open-field cultivation (including land cultivation such as greenhouses), hydroponic cultivation, and nutrient solution cultivation for growing various types of plants. By using it, it greatly promotes the growth of plants and greatly activates the process of vitalization of plants, while actively participating in the process of increasing hormones and biosynthesis of enzymes in plants, thereby actively activating the plant's physiology. It can stimulate (振作), and also provides the effect of maximizing the activation of various plants and various agricultural products by using natural hormones.

1 is a block diagram sequentially showing a method for producing an organic natural hormone liquid fertilizer according to the present invention.
Figure 2 is a cross-sectional view showing the mixing step of the organic natural hormone liquid fertilizer manufacturing method according to the present invention
Figure 3 is a cross-sectional view showing the completion stage of the organic natural hormone liquid fertilizer manufacturing method according to the present invention

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

The present invention relates to a manufacturing method for forming liquid fertilizer used in open-field cultivation (including land cultivation such as greenhouses), hydroponic cultivation, and nutrient solution cultivation for growing various types of plants such as trees, bushes, crops, fruits, and grass. , Seaweed ingredient composition step (S10) · Natural ingredient composition step (S20) · Sugar component composition step (S30) · Mixing step (S40) · Completion step (S50) are the main components.

In the seaweed component composition step (S10) according to the present invention, the seaweed mixture 10 is formed by mixing the seaweed powder and water in an appropriate ratio and mixing them appropriately. In the seaweed component composition step (S10), seaweed powder and water are sufficiently mixed at an appropriate level to form the seaweed mixture 10.

At this time, the seaweed powder in the seaweed component composition step (S10) is prepared in the form of a powder of 80 to 300 mesh, including seaweed, kelp, hijiki, gasari, capricorn, persimmon, agar, cheonggak, and chlorella, or a mixture of one or more. characterized by In other words, seaweed powder is used by mixing any one or more of seaweed, kelp, and fusiforme with each other. Although various components of these seaweeds are in harmony with each other, in particular, alginic acid is contained abundantly in seaweed, It facilitates the discharge of heavy metals, wastes, and toxins, while effectively binding salts. This prevents the inhibition of the activation of useful microorganisms due to the accumulation of salts, prevents nutrients from being properly absorbed into the roots of plants through high salinity, and helps overall growth while reducing the occurrence of various diseases and harms in the harvest. It performs functions that greatly increase yield and quality. In addition, in the case of moss, there are natives of the Korean coast, but they are pushed in from the sea of China far away by sea currents, causing enormous damage to the coastal areas and farms of Jeonnam and Jeju in Korea. Environmental protection and quality seaweed powder can be formed. This seaweed powder is used in the form of powder of 80 to 300 mesh, but it is preferable to form it in the form of 150 to 180 mesh. · In addition to selection suitable for the type and characteristics of fruits and grass, it is necessary to select or combine suitable ingredients for cultivation methods such as land cultivation, hydroponic cultivation, and nutrient solution cultivation.

In addition, the seaweed mixture 10 of the seaweed component composition step (S10) is immersed for 10 to 24 hours in a state in which 30 to 50 wt% of seaweed powder and 50 to 70 wt% of water are mixed and mixed properly, and then mixed again characterized by The seaweed mixture 10 is formed by mixing water with seaweed powder formed from any one or more mixtures of the above-described seaweed, kelp, hijab, gasari, capricorn, gamtae, agar, cheonggak, and chlorella. At this time, the seaweed powder It is made by mixing 30 to 50 wt% and 50 to 1000 wt% of water. In order to mix the seaweed powder and water with each other, they are mixed evenly through a rotating mechanism such as an impeller or a drill, and then immersed for 10 to 24 hours and then mixed again so that the seaweed powder can be completely melted or mixed with water. So that it can be put into the mixing container (A) to be described later.

In addition, in the natural ingredient composition step (S20) according to the present invention, a natural ingredient mixture 20 is formed by mixing fulvic acid, a mineral rich in silicic acid, and water.

In this natural ingredient composition step (S20), fulvic acid, minerals, and water are mixed and formed. In the case of fulvic acid, it is also called NAW (Natural Active Water) or a treasure given by nature to animals and plants. refers to As such, fulvic acid is a component of humus, which is made of organic compounds found in earth's soil, rock sediments, and water bodies, and is produced by the gradual decomposition of certain plants and animals by the action of microorganisms. In addition, fulvic acid has various effects. Looking at it, in addition to generating stem cells and somatic cells in the body, supplying electricity to cells, promoting cell generation and regeneration, strengthening immunity, and restoring the potential difference as a natural electrolyte, cells are rebuilt and life of cells is restored. It balances and exerts the effect of maintaining the health of plants, animals and people. When fulvic acid enhances the bioavailability of nutrients and is used in a form that is easy to dissolve, it helps to regenerate minerals and extend the effective time of essential nutrients, while increasing the activity of enzymes to increase the bioavailability of enzymes. play a role in increasing In addition, fulvic acid stimulates plant growth, enhances the immune system, and can be adsorbed and removed before cell damage is caused due to accumulation of chemicals, thereby quickly detoxifying toxic herbicides and other toxins. There is efficacy.

In addition, the minerals in the natural ingredient composition step (S20) help solubility and permeability of cultivated plant nutrients, promote the development, growth and fruition of crops, as well as contribute to the reform of acidic soil and old soil. put in to do At this time, the mineral material in the natural ingredient composition step (S20) is selected from elvan, illite, diatomaceous earth, volcanic ash (ash), benzonite, feldspar, kaolin, and shell dust, or by mixing one or more of them with each other However, it is characterized by using a mineral material containing 60 to 70% or more of silicic acid. These minerals may be selected from elvan, illite, diatomaceous earth, volcanic ash, benzonite, feldspar, kaolin, or shell dust, or selected and powdered at least one, but trees, bushes, crops, fruits, In addition to selecting the one suitable for the type and characteristics of the turfgrass, it is necessary to select or combine suitable ingredients for the cultivation methods of land cultivation, hydroponic cultivation, and nutrient solution cultivation. It is thought that it is desirable to use a mineral containing 60 to 70% or more of silicic acid as such a mineral, but to select and pulverize a mineral containing 70% or more of silicic acid. In addition, if a mineral contains a lot of silicic acid, it can sufficiently absorb silicic acid when growing, so that leaves and stems become stronger, so that resistance to diseases and pests can be increased, excessive absorption of nitrogen is suppressed, and You can strengthen your resilience. In addition, while resistance to various diseases and pests is increased, it also has the action and effect of improving the acidification of land that is acidified by alkali components containing silicic acid, hydroponic cultivation, and nutrient solution cultivation.

On the other hand, the natural ingredient mixture 20 in the natural ingredient composition step (S20) is mixed with 30 to 45 wt% of fulvic acid, 5 to 20 wt% of mineral material, and 40 to 50 wt% of water for 10 to 30 minutes, and bubbling bubbles It is characterized in that it is mixed properly until it occurs, then immersed for 12 to 24 hours, and then mixed again. As such, when mixing 30 to 45 wt% of fulvic acid, 5 to 20 wt% of minerals, and 40 to 50 wt% of water to form the natural ingredient mixture 20 of the natural ingredient composition step (S20), the above-described seaweed mixture (10 ), they can be mixed evenly with each other through a rotating mechanism such as an impeller and a drill. When the mixture is mixed for 10 to 30 minutes (preferably for about 20 minutes), bubbles are naturally generated as the acidic fulvic acid and the mineral having an alkaline component are melted, resulting in a bubbling and boiling phenomenon. After that, the mixture of fulvic acid, minerals, and water is immersed for 12 to 24 hours, and then mixed again to form the natural ingredient mixture 20.

In addition, in the sugar component manufacturing step (S30) according to the present invention, a sugar mixture 30 is formed by mixing molasses and water with each other. Molasses in the sugar component manufacturing step (S30) uses the sugar component as a carbon source, so when the microorganism 40 is introduced, it can promote growth and fermentation to help activate the microorganism, and separate non-sugar organic matter It also contains vitamins and minerals, which help plants grow.

At this time, the saccharide mixture 30 in the sugar component preparation step (S30) is characterized in that 40 to 60 wt% of molasses and 40 to 60 wt% of water are mixed with each other. The saccharide mixture 30 is properly mixed with each other through a rotating mechanism such as the above-described impeller or drill. Mixing seems appropriate.

In addition, in the mixing step (S40) according to the present invention, the seaweed mixture (10) and the natural ingredient mixture (20) are first introduced into the mixing container (A), and the sugar mixture (30), microorganisms (40) and water are mixed. After sequentially introducing and mixing, a primary mixture 41 is formed. In the mixing step (S40), the above-described seaweed mixture 10, the natural ingredient mixture 20, the saccharide mixture 30, and the microorganism 40 are mixed to form a primary mixture 41. At this time, the mixing container ( In A), the seaweed mixture (10) and the natural ingredient mixture (20) are first added, and the sugar mixture (30), microorganisms (40), and water are sequentially added to the mixing container (A), and then the impeller or drill, etc. Mix thoroughly with each other using a rotating mechanism.

And in the primary mixture 41 of the mixing step (S40), 3 to 8 wt% of the seaweed mixture (10), 3 to 10 wt% of the natural ingredient mixture (20), 2 to 6 wt% of the sugar mixture (30), and microorganisms (40) ) 1 to 3 wt% and 75 to 91 wt% of water are added to the mixing container (A) and mixed with each other, but the seaweed mixture (10) and the natural ingredient mixture (20) are first added to the mixing container (A), and the saccharide mixture (30) is additionally added, and then the microorganisms (40) and water are added again and mixed continuously for 24 hours at a temperature of 10 to 30 ° C for 4 to 7 days to produce a primary mixture (41) characterized by The primary mixture 41 of this mixing step (S40) contains 75 to 93 wt% of water as a whole, and 3 to 8 wt% of the seaweed mixture 10 and 3 to 10 wt% of the natural ingredient mixture 20 and A primary mixture 41 is formed by including 2 to 6 wt% of the sugar mixture 30 and 1 to 3 wt% of the microorganism 40. When rearranged, the seaweed mixture 10 and the natural ingredient mixture 20 are first put into the mixing container A, and then the saccharide mixture 30, the microorganism 40, and water are sequentially introduced, as described above. The saccharide mixture (30) promotes growth and fermentation when the microorganisms (40) are added to help activate the microorganisms, so they are added together, but the seaweed mixture (10) and the natural ingredient mixture (20) ) first, followed by the saccharide mixture 30 and the microorganism 40, and then water is added last. Then, a rotating mechanism such as an impeller inside the mixing container (A) is continuously mixed with each other for 24 hours at a low rotational speed of 5 to 50 rpm at a temperature of 10 to 30 ° C. for 4 to 7 days, and the primary mixture (41) allow this to be created. In addition, when stirring continuously at low speed for 4 to 7 days, as a large amount of oxygen is added together, microorganisms 40 increase and growth and fermentation are promoted, so that the primary mixture 41 of high quality is created

In addition, the microorganism 40 of the mixing step (S40) is characterized by using an aerobic microorganism (好气性微生物), but properly mixing any one or one or more of lactic acid bacteria, yeast bacteria, filamentous bacteria, actinomycetes, and photosynthetic bacteria. do. The microorganism 40 in the mixing step (S40) uses aerobic microorganisms, and any one or more of lactic acid bacteria, yeast bacteria, filamentous bacteria, actinomycetes, and photosynthetic bacteria are mixed and provided according to the situation. Lactic acid bacteria perform fermentation and bacteriostatic action, and produce lactic acid using glucose obtained from photosynthetic bacteria and yeast as substrates. These lactic acid bacteria (乳酸菌), in particular, suppress the propagation of harmful microorganisms and rapid decay and decomposition of organic matter, and perform important activities such as fermentation and beneficial decomposition. In addition, yeast can activate the division of roots and cells through physiologically active substances such as hormones produced by secretions from the roots of crops by utilizing their fermentation power. In addition, filamentous fungi are fungi that can be easily seen with the naked eye. Unlike yeast, they produce a large amount of hyphae and spores to produce various physiologically active substances such as amino acids and polysaccharides, and play a role in helping yeast proliferation. In addition, actinomycetes are intermediate forms of bacteria and fungi, and produce antibacterial substances by receiving amino acids produced by photosynthetic bacteria. These antibacterial substances not only suppress pathogens or preoccupy substances (chitin) necessary for the growth of harmful fungi and bacteria, but also help plant growth by creating a favorable environment for other useful microorganisms. In addition, photosynthetic bacteria play a role in gathering beneficial bacteria around them and produce and supply physiologically active substances to greatly help crops, and also provide high antioxidant effects to various crops such as agricultural products. This action uses the light and heat received from the soil as energy and the secretions, organic matter, or harmful gases (such as hydrogen sulfide) from the roots of plants as food for photosynthetic bacteria. It is a biosynthetic autotrophic microorganism that promotes the growth and growth of . In addition, although photosynthetic bacteria exist in a considerable amount in general soil, they are insufficient in general abundance, so they must be artificially proliferated to properly produce photosynthetic effects. In the present invention, by mixing and using any one or more of these lactic acid bacteria, yeast bacteria, filamentous bacteria, actinomycetes, and photosynthetic bacteria with each other, there are actions and effects that can be combined in various ways depending on the type of plant and environment.

On the other hand, in the completion step (S50) according to the present invention, a neutralizing agent (51) is mixed again to neutralize bicarbonate produced in the process of cultivating crops on the primary mixture (41) of the mixing step (S40). The organic natural hormone liquid fertilizer 50 for final plant activation is completed. The completion step (S50) is to complete the organic natural hormone liquid fertilizer 50 for plant activation, and a neutralizer 51 for neutralizing bicarbonate is further added to the above-described primary mixture 41.

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According to the present invention, trees, bushes, crops, fruits, and grass are combined in liquid form in various agricultural cultivation processes such as open-field cultivation (including land cultivation such as greenhouses), hydroponic cultivation, and nutrient solution cultivation for growing various types of plants. By using it, it greatly promotes the growth of plants and greatly activates the process of vitalization of plants, while actively participating in the process of increasing hormones and biosynthesis of enzymes in plants, thereby actively activating the plant's physiology. It can stimulate (振作), and also provides the effect of maximizing the activation of various plants and various agricultural products by using natural hormones.

The present invention is not limited to the described embodiments, and it is obvious to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such variations or modifications should fall within the scope of the claims of the present invention.

10: seaweed mixture 20: natural ingredient composition
30: sugar mixture 40: microorganisms
41: primary mixture 50: organic natural hormone liquid fertilizer for plant activation
51: neutralizer S10: seaweed component composition step
S20: Natural Ingredient Composition Step S30: Sugar Ingredient Composition Step
S40: mixing step S50: completion step

Claims (9)

In the manufacturing method of forming a liquid fertilizer used in land cultivation, hydroponic cultivation, and nutrient solution cultivation for growing various types of plants: trees, bushes, crops, fruits, grass:
30 to 50 wt% of seaweed powder and 50 to 70 wt% of water, which are prepared in the form of powder of 80 to 300 mesh, include seaweed, kelp, hijiki, gasari, capricorn, Ecklonia, agar, cheonggak, and chlorella, or a mixture of more than one. A seaweed component composition step (S10) of mixing and immersing for 10 to 24 hours in an appropriately mixed state, and then mixing again to form a seaweed mixture (10);
Either 30-45wt% of fulvic acid and elvan, illite, diatomaceous earth, volcanic ash, benzonite, feldspar, kaolin, and shell dust are selected or mixed with one or more of them. However, 5 to 20 wt% of a mineral containing 60 to 70% or more of silicic acid and 40 to 50 wt% of water are mixed with each other for 10 to 30 minutes, but after mixing properly until bubbling bubbles are generated, A natural ingredient composition step (S20) of immersing for 12 to 24 hours and then remixing to form an environmentally friendly natural ingredient mixture 20;
A sugar component composition step (S30) of forming a saccharide mixture 30 formed by mixing 40 to 60 wt% of molasses and 40 to 60 wt% of water with each other;
The above seaweed mixture (10) and natural ingredient mixture (20) are first put into the mixing container (A), and then the saccharide mixture (30) and aerobic microorganisms are used, but lactic acid bacteria, yeast bacteria, filamentous bacteria, Microorganisms 40 mixing any one or more of actinomycetes and photosynthetic bacteria with each other and water are properly mixed with each other in a state where they are sequentially added to form a primary mixture 41, and the primary mixture 41 includes a seaweed mixture (10) 3 to 8 wt% of natural ingredient mixture (20) 3 to 10 wt%, saccharide mixture (30) 2 to 6 wt%, microorganism (40) 1 to 3 wt% and 75 to 91 wt% of water were mixed in a mixing container (A) Put in and mix, but first add the seaweed mixture (10) and the natural ingredient mixture (20) to the mixing container (A) and mix them properly, then add the sugar mixture (30) and mix again Then, a mixing step (S40) of adding the microorganisms 40 and water again and mixing them continuously for 24 hours at a temperature of 10 to 30 ° C. for 4 to 7 days; and
Organic natural hormone liquid fertilizer for plant activation completed by mixing the neutralizing agent 51 again to neutralize bicarbonate produced in the process of cultivating crops on the primary mixture 41 of the mixing step (S40) ( 50), a completion step (S50) of forming; a method for producing organic natural hormone liquid fertilizer for plant activation that promotes plant growth, characterized in that it comprises delete delete delete delete delete delete delete delete

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