KR20110132674A - Plant growing method using microorganism carrier and vegetable health drink thereof - Google Patents

Abstract

PURPOSE: A plant cultivating method using a microbial medium, and a vegetable health beverage using thereof are provided to use a concentrate containing the abundant amount of microorganisms and minerals. CONSTITUTION: A plant cultivating method using a microbial medium(10) comprises the following steps: fermenting a porous medium using a microbial solution and mineral water to obtain the microbial medium; installing the microbial medium in a waterproof container(20); and inserting soil with plants(30) on the upper side in a separate container, and installing the separate container on the microbial medium for cultivating the plants. The microbial solution contains lactobacillus, yeast, actinomycetes, and photosynthetic bacteria.

Description

Plant Growing Method Using Microorganism Carrier And Vegetable Health Drink Thereof}

The present invention relates to a plant cultivation using a microbial medium and a plant health beverage prepared using the same, and more specifically, to cultivate a plant using a microbial medium prepared using a concentrate rich in microorganisms and minerals, The present invention relates to a health beverage prepared from raw materials.

In general, a pot is a plant cultivation container for filling soil and planting flowers or eggs, and a drainage hole is formed at the bottom of the pot for drainage and air circulation, and air is smoothly communicated by the drainage hole. It is common to form a plurality of incision grooves on the circumferential surface of the bottom of the pot so that the drained water can flow out smoothly.

By such a configuration, the water supplied to the earth and sand inside the flower pot is discharged to the outside without standing in the flower pot, thereby having a condition suitable for the plant to grow smoothly through the air into and out of the flower pot.

In addition, when the pot is stored indoors, the pot holder is placed on the bottom of the pot so that the floor surface is not polluted by the water drained through the drain hole and the earth and sand lost to the drain hole. The pot stand is provided in various forms to perform a decorative function in addition to the simple use of holding the drained water.

However, the conventional pollen is absorbed into the soil only necessary amount of water supplied, the rest was discharged through the drain hole. Accordingly, when the weather is dry, there is a hassle of watering every 2-3 days, and if the watering time is missed, there are problems such as plant death.

In addition, when a large amount of water is drained into the drain hole when water is supplied to the pot, the pot stand located at the bottom of the pot is filled with water as soon as possible, and the earth and sand contain a large amount of water while being immersed by the drained water. Maintaining for a long time caused the plant roots to rot.

On the other hand, hydroponic cultivation system, one of the ways to grow plants, is a system that reliably produces light regardless of the season or place by controlling light, temperature, and humidity in a certain facility called a “plant factory”. This system enables stable supply of agricultural products even in extreme weather conditions.

The advantages of hydroponic cultivation are generally:

1. No soil required.

2. Cost of watering is economical because water can be stagnated or reused in the system.

3. The nutritional level is economical because the nutritional level can be adjusted arbitrarily.

4. Free from environmental pollution such as excessive inflow of external nutrients.

5.Stable and high yield

6. It is easy to deal with pests due to the portability of containers, not fixed soil.

Disadvantages include the growth of pathogens such as Salmonella due to fertilizer (liquid fertilizer) and high humidity, and vegetable fungal diseases (eg, Verticillium wilt).

On the other hand, recently called as a group of microorganisms useful in the country, among the many microorganisms existing in the natural world, a combination of the dozens of microorganisms beneficial to humans and cultivation has created a complex coexistence coexistence relationship between the bacteria. This useful microbial group was first developed in 1982 by Professor Higa Teruo, a professor of agriculture at Ryukyu University, and was primarily used as agricultural material. However, as the efficacy and ability are elucidated, the range of applications of environmental purification, public health, industrial use, etc. is expanding. Useful microorganisms do not use any synthetic chemicals and are made from 100% natural materials.

This useful group of microorganisms are usefully formed by photosynthetic bacteria. Photosynthetic bacteria are microorganisms that exist in nature. Crops, such as hydrogen sulfide and nitrogen compounds, are produced when organic matters such as food waste and excretion of humans or animals are decomposed in soil or water. The secretions produced by the growth and proliferation of substances harmful to the growth of livestock and fish by their own foods promote the growth of beneficial microorganisms such as lactic acid bacteria and actinomycetes in the soil and livestock, and the green microorganisms such as chlorella in water. Increasing incidence and proliferation, they are used as food for animal frankfurtons such as yunchung or althemia.

In addition, the photosynthetic bacteria are nutritionally excellent and have no toxicity to animals, making them an initial source of livestock and fish, as well as a good source of feed additives, and promoting growth and yield and quality in crops. It is used as a fertilizer to make it a good bacterium that has been studied in various fields.

Such useful microorganisms generally contain about 80 kinds of microorganisms such as yeast, lactic acid bacteria, yeast bacteria, photosynthetic bacteria, actinomycetes, and are known to have excellent effects in removing odors, purifying water, preventing oxidation of metals and foods, and fermenting leftover food.

Applicant has developed a plant cultivation method using the following microbial medium to combine and cultivate dozens of useful microorganisms by themselves, and to actively utilize such useful microbial groups in urban agriculture and health beverage markets, and is developing application products thereof. .

Plant cultivation method using the microbial medium of the present invention to solve the above problems is to provide a plant cultivation method that can bring a variety of effects by the microorganisms, such as water supply, so as to cultivate the plant by using the land core farming method, which is a new farming concept Has its purpose.

In addition, the health beverage produced using the plant cultivation method using the microbial medium of the present invention is to grow the plants by occupying the microorganisms in the porous medium to allow the inorganic minerals to be absorbed by the plant, and provide a healthy drink from these plants as raw materials Has its purpose.

Plant cultivation method using the microbial medium of the present invention and the health beverage produced by the present invention for achieving the above object, the step of fermenting the porous medium with a microbial stock solution and mineral-rich water symbiosis a plurality of microorganisms to produce a microbial medium; Disposing the microbial medium in a waterproof container; And cultivating the plant by keeping the soil in which the plant is grown on the microbial medium in a separate container with the plant.

Here, the microbial stock solution is a microbial stock solution in which the lactic acid bacteria, yeast, actinomycetes and photosynthetic bacteria symbiotic, the porous medium is characterized in that consisting of any one of the holiday soil, pine (Scoria), sawdust, domestic crest, domestic chaff, rice bran .

The mineral-rich water is used as a nutrient solution as a vanadium concentrate, characterized in that the nutrient solution is provided to the microbial medium in time.

Through this, the water supply is smoothly supplied to the plant root through the drain hole of the container disposed above the microbial medium, and the microorganisms are supplied in the microbial medium together with the supplied water, whereby the plant can absorb the organic matter in the soil. It decomposes into organic acids and minerals to supply nutrition to the plant, and organically concentrate the vanadium in an inorganic state so that the plant can be absorbed so that plants that are beneficial to humans are cultivated. It is a feature of the present invention to provide.

According to the plant cultivation method using the microbial medium of the present invention and the health beverage produced using the same, users can grow the plants more easily by using a new farming method, "green tea method" in the plant cultivation method grown in a pot. There is an effect that can lay the foundation for it.

In addition, the present invention is expected to be able to make a significant contribution to the activation of urban environment agriculture beyond the recent urban agriculture using the plant cultivation system applying the "land-based farming method".

In addition, the present invention, along with the bacteriostatic effect caused by the microbial medium to allow people to consume plants containing immune functions, not just plants, which is optimal for people with abnormal immune systems such as atopy due to environmental problems. It has the effect of providing an environment.

In addition, the present invention has the effect of providing a vegetable health drink, which is beneficial to humans by preparing a beverage from a plant grown using a "green grass method" and a mineral-rich concentrate as a nutrient solution.

1 is a photograph for explaining the microbial medium according to an embodiment of the present invention.
2 and 3 are views and photos for explaining a plant cultivation method using a microbial medium according to an embodiment of the present invention.
Figure 4 is a picture of a plant growing healthy according to the plant cultivation method using a microbial medium according to an embodiment of the present invention.

Hereinafter, the plant cultivation method using the microbial medium of the present invention and the health beverage produced thereby will be described with reference to the drawings.

1 is a photograph for explaining a microbial medium, a microbial medium fermenting a porous mineral holiday earth and Jeju Mt.Scoria by mixing a microbial stock solution and a nutrient solution containing vanadium ions symbiotic to a large number of microorganisms in an appropriate ratio Are manufactured.

In other words, the microbial medium 10 is obtained by fermenting holiday soil or clusters for a predetermined time with a nutrient solution containing a microbial stock solution and vanadium ions in which a plurality of microorganisms coexist, and in the present invention, vanadium (diabetes treatment) ) Is a porous medium rich in minerals useful for the human body such as zinc (anti-hair loss, taste reduction), silica (anti-arteriosclerosis), and microorganisms (Scoria), which is prohibited from being taken out as a World Natural Heritage (10). ) Should be manufactured.

In the present invention, a nutrient solution containing vanadium ions was used, but the present invention is not limited thereto, and the microorganism medium 10 may be manufactured by using a mineral that is good for a human body as a nutrient solution.

The microbial medium 10 is a microbial medium having a system in which a large number of microorganisms, preferably lactic acid bacteria and yeasts for decomposition of organic matter, photosynthetic bacteria and actinomycetes strongly respond to contamination of pathogens and rot bacteria as symbiotic microorganisms.

On the other hand, in general, living plant cells selectively absorb metal ions by the active transport process of the cell membrane (by ionophore, a lipid membrane-binding protein), so minerals such as selenium and germanium have a low absorption rate in the inorganic state. none. For example, heavy metals such as mercury are not directly absorbed into living organisms.However, as seen in the case of Minamata disease, methyl mercury, which is organicized by aquatic microorganisms, is easily absorbed due to its high affinity with lipid membranes. Absorption rate is high. The problem is that the case of Minamata disease is a representative case of pollution caused by high concentrations accumulated in the human body along the food chain of the ecosystem at such high absorption rate. However, when the organic process is applied to essential mineral components such as vanadium, the organic molecules have a high absorption rate due to their affinity with the plant cell membrane.

In addition, studies abroad showed that inorganic vanadium ions inhibited plant growth in nutrient cultivation of couperan plants (Olness etc, Importance of vandadium and nutrient ionic ratios on the development of hydroponically grown cuphea, Industrial Crops). and Products 21 (2005) 165-171).

In view of the above, the present invention concentrates minerals such as vanadium, which are concentrated in the nutrient solution in an inorganic state and thus hinders plant growth, by organically organically by a porous medium occupied by a large number of microorganisms, irrespective of growth inhibition effects on plants. It is intended to be absorbable and to provide high concentrations of vegetable vanadium beverages using such plants.

Photosynthetic bacteria are necessary in many of the microorganisms, but unlike photosynthetic bacteria used as single strains in the existing independent nutrient state, they exist in a stabilized form in a heterotrophic state with lactic acid bacteria, yeast and actinomycetes, and harmful toxin type organic matter. Not only synthesizes and supplies nutrients (amino acids, glucose) to plants, but also releases Quorm Sensing molecules (a type of pheromone) in porous media such as Scoria, which helps the growth of actinomycetes that secrete antibacterial substances. It has the characteristic of maximizing. Photo B of Figure 1 is a photograph illustrating that the actinomycetes is maximized.

Applicant is defined as "land-based farming", which is differentiated from all existing methods of cultivation by using the microbial medium 10 as a basic system to grow plants. The "green grass farming method" is also differentiated from the hydroponic farming method and is considered a new farming method of human history. However, the experience of our ancestors taking microbes (especially actinomycetes) out of the mountains in consideration of microorganisms and using them in the composting effect tablet for enhancing antimicrobial function suggests that our cultivation method is based on this tradition. have.

In other words, the "land-based farming method" is to maintain the soil in which the plant is grown on the top of the microbial medium (10) symbiotic multiple microbial group is contained with the plant in a separate container, such cultivated soil containing water Or a system adapted to be grown on microbial media that maintains anaerobic morphology as much as possible.

The porous medium used in the present invention, but pine or holiday soil is not limited thereto, but may be made of sawdust, domestic crested rice, domestic chaff, rice bran, etc. using porous soil (domestic is pine) and domestic wood.

2 and 3 is a view for explaining a plant cultivation method using a microbial medium 10 of the present invention, a mineral-rich water, that is, containing vanadium ions, such as microbial stock solution and vanadium symbiosis a plurality of microorganisms The nutrient solution is placed in a pine fermenter to ferment the clusters to make a microbial medium (10). The microbial medium 10 is placed in a container 20 to be waterproof, and a separate container 40 having a soil in which the plant is cultivated in a state in which the microorganism medium is contained together with the plant 30 is disposed to cultivate the plant. Done.

The container 40 disposed above the microbial medium 10 containing the moisture or possibly anaerobic state has a drainage hole (not shown) at the bottom thereof to smoothly supply water to the plant root through the drainage hole. By supplying the microorganisms in the microbial medium with the supplied water, the organic matter in the soil is decomposed into organic acids and inorganic substances in a form that can be absorbed by the plant to supply nutrition to the plants, and the inorganic state by the microorganism group Organicizing the concentrated vanadium so that the plant can be absorbed so that the plant beneficial to humans is grown.

4 is a photograph for showing the plant roots are extended to the bottom of the drain hole to suck out the moisture and microorganisms of the microbial medium 10 to grow well and healthy, the growth state of the plant is excellent.

In the cultivation method using the plant cultivation system 50 as described above, water is supplied to the water-proof container 20 having the microbial medium 10 containing the first moisture or possibly anaerobic state after a predetermined time. , When the water supply time is looking directly to the container (20) side can see immediately whether the microbial medium (10) is wet, and if you touch the microbial medium (10) also immediately know whether it is moist or wet. Can be. The water can be supplied to the microbial medium (10) to contain water or to maintain as anaerobic as possible without the need to supply the water more than the height of the stacked microbial medium (10) to facilitate the water supply of plants. . The water supply may preferably be used to provide nutrient solution using watering as shown in FIG. 2 in a mass production system.

This nutrient solution is converted into nutrients that can be absorbed by the microbial group symbiotic in the microbial medium 10 is supplied to the plant.

On the other hand, while operating the microbial medium (10) in an anaerobic environment, when contamination of the plant is found, it may be controlled by maximizing the activity of actinomycetes by changing the microbial medium to aerobic form.

According to the plant cultivation method using the microbial medium of the present invention, through the "land-based farming method", not only the indoor purification of the plant, but also the indoor bacteriostatic function by the microorganisms, while providing a system that can easily grow and healthy, especially vanadium By providing a plant absorbing such minerals, it can be utilized as a raw material of high concentration vegetable vanadium beverage.

Therefore, the present invention can produce a high concentration vegetable beverage by applying a method such as cultivating a plant to which the "green core method" is applied as a raw material of the high concentration vegetable vanadium beverage and extracting the cultivated plant.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those who have knowledge.

10: microbial medium
20: waterproof container
30: plants
40: container with plants
50: plant cultivation system

Claims (5)

Fermenting the porous medium with microbial stock solution and mineral-rich water in which a plurality of microorganisms symbioticly generate microbial medium;
Disposing the microbial medium in a waterproof container; And
Plant cultivation method using the microbial medium for cultivating the plant to maintain the soil in which the plant is grown on the microbial medium is contained in a separate container with the plant. According to claim 1, wherein the microbial stock solution is a microbial stock solution is a symbiosis of lactic acid bacteria, yeast, actinomycetes and photosynthetic bacteria, the porous medium is made of any one of holiday soil, pine (Scoria), sawdust, domestic crested rice, domestic chaff, rice bran Plant cultivation method using a microbial medium, characterized in that. The method of claim 1, wherein the mineral-rich water is a cultivation method using a microbial medium, characterized in that the nutrient solution containing vanadium ions. The method of claim 3, wherein the water supply to the plant root through the drain hole of the vessel disposed on the microbial medium is smoothly supplied, the microorganisms in the microbial medium is supplied with the supplied water, thereby absorbing the organic matter in the soil A method for plant cultivation using a microbial medium, wherein the microorganism medium is decomposed into organic acids and inorganic substances in a form capable of supplying nutrients to the plant, and organicizing the vanadium concentrated in an inorganic state to allow the plant to be absorbed. Vegetable health beverage made from the plant grown by the plant cultivation method using the microorganism medium of claim 1.

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