KR101348552B1 - Hydrophile property structure frame for using a bacillus cultivation and hydroponics cultivation, and use method of the same - Google Patents

Abstract

The present invention discloses technologies related to environmentally friendly water quality management and crop cultivation. That is, hydrophilic equipment for hydroponic cultivation and bacterial culture according to an embodiment of the present invention and a method of using the same, by cultivating and cultivating hydroponic crops or anaerobic bacteria by using the first and second converging pipes and setting members provided therein, It is more efficient to remove nitrates, ammonia, calcium, potassium or magnesium, and to clean the water quality of at least one aquarium installed in each home or business office. Improve the quality of sympathetic life between nature.
In addition, the present invention by using the idle space in the aquarium cultivated hydroponic crops, which can be said to be a crop that can be eaten by humans, and more effectively cultivate bacteria, moss, fungi that are useful to humans by direct and indirect food shortage In addition to solving the problem, by providing a field where you can directly experience the growth of hydroponic plants, bacteria, moss, and fungi that remove nitrate, ammonia, calcium, potassium, or magnesium components in the water. In addition, children can be more interested in nature learning, and this can be a great help for emotional development and emotional development for both adults and children.

Description

Hydrophilic Property Structure Frame for using a Bacillus Cultivation and Hydroponics Cultivation, and Use Method of the Same}

The present invention relates to technologies related to environmentally friendly water quality management and crop cultivation, and in particular, hydrophilic cultivation and hydroponics for cultivating hydroponic crops or anaerobic bacteria by cultivating and cultivating hydroponic crops or anaerobic bacteria by using first and second converging pipes and setting members. It is about how to use.

In conventional plant facility cultivation, it is possible to cultivate in the place which is not suitable for the avoidance of cultivation of crops in cultivation of open field and cultivation, leading to shortening of working time compared with open field cultivation, increase in quantity per unit area, industry In the case of so-called nutrient cultivation (generally called `` hydroponic cultivation ''), which uses a facility in a greenhouse and maintains the plant without using soil, and cultivates the plant by giving nutrients and water from the viewpoint of the possibility of the production. Many) began to be introduced.

In cultivation of such nutrient solution, there is no serial obstacle compared to cultivation using soil (especially, the advantage is largely ahead of the prohibition of the full use of methyl bromide used for fumigation), the growth is fast and the quantity is high, and the control of the cultivation environment is relatively There is an advantage such as easy.

However, in 1999, the nutrient solution growing area is 1056 ha, which is only about 1% of the total vegetable growing area. As such, the reason why the cultivation of nutrient solution is not activated is that if the initial capital investment cost is high, the production cost is increased, the risk is large, and the management requires a large amount of technology (invasion of pathogens or the adjustment of nutrient solution). Etc.) It can be said that obstacles such as being devastated damage.

There are three kinds of nutrient cultivation: spray cultivation, hydroponic (NFT), and solid medium (sand cultivation, gravel cultivation, lock wall cultivation).

The most important points or weak points common to each nutrient cultivation system described above are the initial introduction cost, the running cost, and the supply of oxygen. In addition, in nutrient cultivation, since the root and nutrient solution are in direct contact, the adjustment of the nutrient solution is delicate and the management range thereof is very narrow. In particular, changes in the composition, concentration, and pH of the nutrient solution require careful attention.

Among them, one of the most problematic points for nutrient cultivation is that the pH of nutrient solution is easily changed. The supply of oxygen to plants is also the most important condition. In particular, at a high temperature, the respiration of the roots is increased to increase the oxygen demand, but on the other hand, the dissolved oxygen concentration is lowered, so there is a problem of oxygen deficiency. When oxygen deficiency occurs, a phenomenon called "muscle pain" occurs. As a result, roots rot, ammonia is generated, and the pH of the nutrient solution starts to rise.

The supply of root oxygen can be supplemented by the dissolved oxygen in the liquid in nutrient cultivation or by directly contacting the oxygen in the air.However, in the nutrient cultivation, the dissolved oxygen in the nutrient solution may not be used. Often not. However, in view of its nature, it is impossible to raise the concentration of dissolved oxygen itself, and in practice, supply of plant oxygen is extremely insufficient in nutrient cultivation.

Korean Publication Patent Number: 10-2012-0085399 Korean Publication Patent Number: 10-2013-0053898 Korea Patent Registration: 10-1045238-0000 Korea Patent Registration: 10-1018836-0000

Hydrophilic equipment for hydroponic culture and bacterial culture of the present invention and a method of using the same are devised to solve the problems of the prior art, the first object of the present invention is to provide a first and second converging tube and the setting member By cultivating and cultivating hydroponic crops or anaerobic bacteria, nitrates, ammonia, calcium, potassium or magnesium, which are the main contributors to water pollution, are removed more efficiently, and the water quality of the aquarium installed at least one at each home or business office is more clean. This is to improve the quality of life and the sympathetic life between humans and nature through the life extension of life in water.

In addition, a second object of the present invention is to cultivate hydroponic crops, which can be said to be human-friendly crops by using the idle space in the aquarium, and to cultivate bacteria, moss, and molds useful for humans more effectively, and to be disposed of in the future. In addition to directly and indirectly addressing food shortages, you can experience the growth of hydroponic crops, bacteria, moss, and fungi that remove nitrate, ammonia, calcium, potassium, or magnesium from water. By providing children, it is possible to inspire children to learn more about nature, and to help them to develop emotional and emotional development regardless of whether they are adults or children.

The present invention for achieving the above object includes the following configuration.

That is, hydrophilic equipment for hydroponic culture and bacterial culture according to an embodiment of the present invention, the upper stem portion of the hydroponic crops converge to the first predetermined internal space, the upper stem portion of the hydroponic crop without first leaving the outside by the first vortex A first converging tube for holding the center of gravity of the upper stem in the safe region of the first internal space so as to be fixed; The middle and lower stem portions of the hydroponic crops converge to a second predetermined internal space, and the middle and lower stem portions of the hydroponic crop are set so that the middle and lower stem portions of the hydroponic crops are seated without leaving the outside by the second vortex. A second converging canal that holds within the safe region; Attached to the outer one side of the first, the second converging pipe, respectively, connecting the first and second converging pipes in the form of a straight rod from the outer one side of the first converging pipe to the outer one side of the second converging pipe Giving pipe support; Air adsorbed to the outer wall by air adsorption, respectively, is installed on the first and second rear parts corresponding to the first and second attachment surfaces of the pipe connection support, respectively attached to the outer one side of the first and second converging pipes. Adsorption plate; And a setting member which not only supports the root of the hydroponic crop so that the hydroponic crop is seated, but also sets the flagella or cilia of the anaerobic bacteria so that the acrobatic bacteria are cultured to induce the growth of the hydroponic crop or the anaerobic bacteria. do.

In addition, the method of using hydrophilic equipment for hydroponic cultivation and bacterial culture according to an embodiment of the present invention, the first converging tube converges the upper stem portion of the hydroponic crops in a predetermined first internal space, the upper stem portion of the hydroponic crops Holding the center of gravity of the upper stem portion in the safe region of the first inner space so that the first stem is settled without being separated by the first vortex; The second converging tube converges the middle and lower stem portions of the hydroponic crop into a second predetermined internal space so that the middle and lower stem portions of the hydroponic crop are seated without a second detachment by the second vortex. Holding in the safe area of the inner space; A pipe connecting support is attached to one outer side of each of the first and second converging pipes so that the first and second converging pipes form a straight rod from the outer one side of the first converging pipe to the outer one side of the second converging pipe. Connecting the two to each other; Air adsorption plates are respectively installed on the first and second rear surfaces corresponding to the first and second attachment surfaces of the pipe supporters respectively attached to the outer one side of the first and second converging tubes, respectively, to be adsorbed on the outer wall surface by an air adsorption method. Becoming; And setting a member to support the root of the hydroponic crop so that the hydroponic crop is seated, as well as setting the flagella or cilia of the anaerobic bacterium so that the anaerobic bacteria are cultured, thereby inducing the growth of the hydroponic crop or the anaerobic bacteria. It includes.

Hydrophilic equipment for hydroponic cultivation and bacterial culture of the present invention and a method of using the same are used to cultivate and cultivate hydroponic crops or anaerobic bacteria by using the first and second converging pipes and setting members. More efficiently removes calcium, potassium, or magnesium, and cleans the water quality of at least one aquarium installed in each home or office to extend the life of life in the water and the sympathetic life between humans and nature. It gives a 1st effect which improves more quality.

In addition, the present invention by using the idle space in the aquarium cultivated hydroponic crops, which can be said to be a crop that can be eaten by humans, and more effectively cultivate bacteria, moss, fungi that are useful to humans by direct and indirect food shortage In addition to solving the problem, by providing a field where you can directly experience the growth of hydroponic plants, bacteria, moss, and fungi that remove nitrate, ammonia, calcium, potassium, or magnesium components in the water. In addition, it is possible to inspire children to learn more about nature, and it has a second effect that greatly helps emotional and emotional development for adults and children.

1 is a diagram illustrating a hydrophilic apparatus for hydroponic culture and bacterial culture according to an embodiment of the present invention.
Figure 2 is a view showing in more detail hydrophilic equipment for hydroponic culture and bacterial culture according to an embodiment of the present invention.
Figure 3 is another view showing in more detail hydrophilic equipment for hydroponic culture and bacterial culture according to an embodiment of the present invention.
Figure 4 is a view showing in more detail hydrophilic equipment for hydroponic culture and bacterial culture in accordance with another embodiment of the present invention.
Figure 5 is a view showing in more detail hydrophilic equipment for hydroponic culture and bacterial culture according to another embodiment of the present invention.
Figure 6 is another view showing in more detail hydrophilic equipment for hydroponic culture and bacterial culture in accordance with another embodiment of the present invention.
Figure 7 is another view showing in more detail hydrophilic equipment for hydroponic culture and bacterial culture in accordance with another embodiment of the present invention.
8 is a flow chart illustrating a method of using hydrophilic equipment for hydroponic culture and bacterial culture according to an embodiment of the present invention.

[Example]

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

1 is a view showing hydrophilic equipment for hydroponic culture and bacterial culture according to an embodiment of the present invention.

Referring to FIG. 1, hydrophilic equipment for hydroponic cultivation and bacterial culture 1000 grows and cultivates hydroponic crops or anaerobic bacteria by using first and second converging tubes 100 and 200 and setting members 500. As shown in FIGS. 2 and 3, the apparatus includes first and second convergent tubes 100 and 200, a pipe support 300, an air suction plate 400, and a setting member 500.

First, the first converging pipe 100 converges the upper stem portion of the hydroponic crop 2000 into a predetermined first internal space so that the upper stem portion of the hydroponic crop 2000 is fixed so as not to be shaken by the first vortex without departing from the outside. The center of gravity of the stem is held within the safe region of the first interior space.

The second converging pipe 200 converges the middle and lower stem portions of the hydroponic crop 2000 into a predetermined second internal space so that the middle and lower stem portions of the hydroponic crop 2000 are seated so as not to be shaken by the second vortex without leaving the outside. However, the center of gravity of the stem portion is held within the safe region of the second internal space.

The first and second converging pipes 100 and 200 are formed in a structure having a cylindrical or polygonal shape having an open top and bottom surfaces so that the hydroponic crops 2000 converge to the safe regions of the first and second internal spaces. The first and second inner spaces have a structure that forms a safe region having a radius of 1 cm to 10 cm based on the center of the stem portion of the hydroponic crop 2000.

Here, the first and second converging tubes having a polygonal shape are referred to as 110 and 210.

As shown in FIG. 4, the first and second converging pipes 100 have strings attached to the first and second converging pipes 100 and 200 even though the first and second vortices hit the first and second converging pipe outer surface portions. At least one rod 600 is installed on the inner side of the first and second converging pipes 100 and 200 to maintain the position or string attachment state.

At least one rod 600 is a plastic material, acrylic material, bronze, pottery, stainless steel, rubber material, glass material, transparent silicon material, opaque silicon material, polyester resin, polyethylene resin, polycarbonate resin, polymer resin, It is made of one selected from polypropylene resin and synthetic resin mixed with these.

The pipe support 300 is attached to one outer side of the first and second convergent tubes 100 and 200, respectively, from the outer one side of the first convergent tube 100 to the outer one side of the second convergent tube 200. The first and second converging pipes 100 and 200 are connected to each other in the form of straight bars.

In addition, the pipe support 100 may be formed in a structure in which the upper surface and the lower surface is sealed so that the LED element or sound output means and power is applied after mounting the LED element or sound output means therein.

The air adsorption plate 400 is installed on the first and second rear parts corresponding to the first and second attachment surfaces of the pipe support 300 respectively attached to the outer one side of the first and second converging pipes 100 and 200, respectively. It is adsorbed to the aquarium wall surface (outer wall surface) by the air adsorption system.

Air adsorption plate 400 is a kind of support means made in the shape of a dome using a rubber material, the first and second rear parts of the pipe support 300 and the top end of the dome are fastened to each other, press the top of the dome inside the dome It is automatically attached to and detached from a nearby wall (ex: aquarium wall) by receiving the adsorption force generated by discharging the existing air to the outside.

As another example, the detachable means 800 coupled with the air adsorption plate 400 may include first and second grooves so that the outer surface of the first and second converging pipes is fitted into or removed from the inner surface as shown in FIG. 6. , Detachable means 800 integrally coupled with the air adsorption plate 400 is to replace hydrophilic equipment for hydroponic cultivation and bacterial culture (1000) for repair purposes or to drain out the water for external cleaning, the base wall and base Even if the air adsorption plate 400 in a closed state does not have to be separated from the outer wall at once, it will have a unique advantage of being able to separate hydrophilic equipment 1000 for hydroponic cultivation and bacterial culture separately.

The setting member 500 not only supports the root of the hydroponic crop 2000 so that the hydroponic crop 2000 is seated, but also sets the flagellum or cilia of the anaerobic bacteria to cultivate the anaerobic bacteria to cultivate the hydroponic or anaerobic bacteria. Induce.

The setting member 500 includes an anaerobic bacterium including lactobacillus acidophilus, Streptococcos mutans and Actinomyces, and aquatic fungi including plant moss or water fungus (Saprolegnia), cotton fungus (Achlya), and alomikes. Following the lower surface of the) and incubated in the upper portion of the flat plane across the center of the lower surface of the second converging tube (200).

As another example, the remaining area of the lower surface of the second converging pipe 200 except for the setting member 500 may be a plastic material, an acrylic material, a bronze material, a ceramics, a stainless steel, a rubber material, or a glass, as shown in FIG. 5. Materials, transparent silicon material, opaque silicon material, polyester resins, polyethylene resins, polycarbonate resins, polymer resins, polypropylene resins and a synthetic film mixed with them are made of a barrier film 700 made of one selected.

The blocking film 700 includes a plurality of holes vertically penetrated at a spaced interval.

A type of anaerobic bacterium is a probiotic lactic acid bacterium, which is acid resistant, has an intestinal action, anticancer effect, lowers blood cholesterol, and the ability to synthesize vitamin B group. It is called lactobacillus acidophilus and extransucrose (glycosyltransferase), which excrete pathogens and carcinogens that cause intestinal diseases in vitro, and sugars are polymerized into giant polymers such as glucan and fructose, a monosaccharide. Streptococcos mutans, which adhere to teeth firmly to form plaques and ferment fructose to lactic acid, are also known as radial bacteria. Branched in a non-acidic form to form a mycelium, Actinomyces and the like which is cultured for 7 days 3 to 7 days put in a 35 to 39'C incubator about 8 to 12% CO ₂ .

Aquatic fungi are spores such as water fungus (Saprolegnia), cotton fungus (Achlya), and alomikes, which grow in the sac after maturation, swim in water with flagella after maturation, and when they reach a suitable substrate, they grow in mycelia. It can be harvested using squid or the like as bait.

The first and second converging tubes 100 and 200, the pipe support 300, or the setting member 500 may be made of plastic, acrylic, bronze, pottery, stainless steel, rubber, glass, transparent silicon, or opaque. It is made of one selected from silicone materials, polyester resins, polyethylene resins, polycarbonate resins, polymer resins, polypropylene resins, and synthetic resins mixed therewith.

In particular, the other first and second converging tubes 110 and 210 may be easily manufactured in a polygon including a cylindrical shape as shown in FIG. 7. In other words, in another embodiment of the present invention, the other first and second converging pipes 110 and 210 are simply presented in a rectangular shape, but they may be easily manufactured in various forms such as ellipses, triangles, pentagons, hexagons, and stars. will be.

8 is a flow chart illustrating a method of using hydrophilic equipment for hydroponic culture and bacterial culture according to an embodiment of the present invention.

Referring to FIG. 8, a method of using hydrophilic tools for hydroponic culture and bacterial culture is to cultivate and cultivate hydroponic crops or anaerobic bacteria by using first and second converging pipes and setting members, which are the main culprit for water pollution. Sympathetics between humans and nature through the longer life of living organisms and their benefits through more efficient removal of water, ammonia, calcium, potassium or magnesium and clean water quality in at least one aquarium installed in each home or office. It is a method of using equipment that can improve the quality of life.

First, the first converging pipe converges (S100) the upper stem portion of the hydroponic crop to a predetermined first internal space so that the upper stem portion of the hydroponic crop is fixed to the first stem portion without the external deviation by the first vortex. Hold in the safe area of the space (S110).

The second converging pipe converges (S120) the middle and lower stem portions of the hydroponic crops to a predetermined second internal space so that the middle and lower stem stems of the hydroponic crops are seated without outside detachment by the second vortex. Holds in the safe area of the internal space (S130).

The pipe support is attached to the outer one side of the first and second converging pipes, respectively, and connects the first and second converging pipes to each other in the form of a straight rod from the outer one side of the first converging pipe to the outer one side of the second converging pipe. (S140, S150).

The air adsorption plate is installed on the first and second rear surfaces corresponding to the first and second attachment surfaces of the pipe connection supports respectively attached to the outer one side of the first and second converging pipes, and the external wall surface (ex: aquarium) Wall surface) (S160, S170)

The setting member not only supports the root of the hydroponic crop so that the hydroponic crop is seated, but also sets the flagella or cilia of the anaerobic bacteria so that the anaerobic bacteria are cultured to induce the growth of the hydroponic crop or the anaerobic bacteria (S180).

Here, the first, second converging tube, the pipe support or the setting member is a plastic material, acrylic material, bronze, pottery, stainless steel, rubber material, glass material, transparent silicon material, opaque silicon material, polyester resin, polyethylene resin Note that the polycarbonate resin, the polymer resin, the polypropylene resin, and the synthetic resin mixed with these selected from the cylindrical as well as polygonal.

The method of using hydrophilic equipment for hydroponic culture and bacterial culture according to an embodiment of the present invention is easy to perform additional operations as described below.

Air adsorption plate is manufactured in rubber dome shape.

The first and second rear portions of the pipe support and the top end of the dome are fastened to each other.

In addition, the air present in the dome is discharged to the outside by the pressure on the upper part of the dome, the air adsorption plate is automatically detached to the adjacent wall surface by the adsorption force generated by the air discharge.

The setting member extends from the lower surface of the pipe support and uses a straight flat top across the center of the lower surface of the second converging tube to culture anaerobic bacteria, plant moss or aquatic fungi.

Even if the first and second vortices strike the outer surface of the first and second converging pipes, the inner surface of the first and second converging pipes maintains the current attachment position or current attachment state of the first and second converging pipes. Is installed on.

At least one rod is plastic material, acrylic material, bronze, pottery, stainless steel, rubber material, glass material, transparent silicon material, opaque silicon material, polyester resin, polyethylene resin, polycarbonate resin, polymer resin, polypropylene resin And it is produced by the selected one of the synthetic resin mixed them.

As another example, the remaining area on the lower surface of the second converging tube except for the setting member may be a plastic material, an acrylic material, a bronze material, a ceramics, a stainless steel, a rubber material, a glass material, a transparent silicon material, an opaque silicon material, or a polyester resin. And a barrier film made of one selected from polyethylene resin, polycarbonate resin, polymer resin, polypropylene resin, and synthetic resin mixed therewith.

In addition, the blocking film includes a plurality of holes vertically penetrating at a spaced interval.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims. It can be understood that it is possible.

1000: hydrophilic equipment for hydroponic culture and bacterial culture
100,200: 1st, 2nd converging pipe 300: pipe connection support
400: air suction plate 500: setting member
600: Flesh 700: Barrier
800: detachable means 2000: hydroponic crops

Claims (15)

The upper stem portion of the hydroponic crop converges to a first predetermined internal space, and the center of gravity of the upper stem portion is fixed within the safe region of the first internal space so that the upper stem portion of the hydroponic crop is fixed without external deviation by the first vortex. A first converging tube for holding;
The middle and lower stem portions of the hydroponic crops converge to a second predetermined internal space, and the middle and lower stem portions of the hydroponic crop are set so that the middle and lower stem portions of the hydroponic crops are seated without leaving the outside by the second vortex. A second converging canal that holds within the safe region;
Attached to the outer one side of the first, the second converging pipe, respectively, connecting the first and second converging pipes in the form of a straight rod from the outer one side of the first converging pipe to the outer one side of the second converging pipe Giving pipe support;
Air adsorbed to the outer wall by air adsorption, respectively, is installed on the first and second rear parts corresponding to the first and second attachment surfaces of the pipe connection support, respectively attached to the outer one side of the first and second converging pipes. Adsorption plate; And
And a setting member which not only supports the root of the hydroponic crop so that the hydroponic crop is settled, but also sets the flagella or cilia of the anaerobic bacteria to cultivate the anaerobic bacteria to induce the growth of the hydroponic crop or the anaerobic bacteria. Hydrophilic Apparatus for Hydroponics and Bacteria Culture.
The method of claim 1, wherein the first and second internal spaces,
Hydrophilic cultivation and bacterial culture hydrophilic apparatus, characterized in that the structure to form a safe area of 1 cm to 10 cm radius of the center of the stem portion of the hydroponic crop.
The method of claim 1, wherein the first, the second converging pipe, the pipe support or the setting member,
It is easy to produce cylindrical and polygonal, and is made of plastic, acrylic, bronze, pottery, stainless steel, rubber, glass, transparent silicone, opaque silicone, polyester resin, polyethylene resin, polycarbonate resin, and polymer resin. Hydrophilic equipment for hydroponic cultivation and bacterial culture, characterized in that the polypropylene resin and one of the selected synthetic resin mixed.
The method of claim 1, wherein the first, second converging pipes,
Hydrophilic equipment for hydroponic cultivation and bacterial culture, characterized in that the hydroponic crop is formed in a structure having a cylindrical or polygonal shape of the upper and lower surfaces so as to converge to the safe regions of the first and second internal spaces.
The method of claim 1, wherein the pipe support is,
Hydrophilic equipment for hydroponic culture and bacteria culture, characterized in that the LED element or the sound output means mounted in the interior and the LED element or sound output means and the structure is sealed to the upper and lower surfaces so that power is applied.
The method of claim 1, wherein the air adsorption plate,
It is a kind of support means manufactured in the shape of a dome by using a rubber material, and the first and second rear parts and the top end of the dome are fastened to each other, and pressurizes the upper part of the dome to discharge air existing in the dome to the outside. Hydrophilic equipment for hydroponic cultivation and bacterial culture, characterized in that it is automatically attached to the adjacent wall surface receives the generated adsorption force.
The method of claim 1, wherein the setting member
Anaerobic bacteria, including lactobacillus acidophilus, Streptococcos mutans, and Actinomyces, as well as aquatic fungi, including plant moss or saprolegnia, cotton fungus (Achlya) and allomikes, Hydrophilic equipment for hydroponic cultivation and bacterial culture, characterized in that the culture in the upper portion of the flat surface across the center of the lower surface of the second converging pipe.
The method of claim 1,
At least one of the first and second converging tubes maintains the current attachment position or current attachment state of the first and second converging tubes even when the first and second vortices hit the first and second converging tube outer surface portions. It is characterized in that the rod is installed on the inner side of the first, second converging pipes,
The at least one rod is plastic material, acrylic material, bronze, pottery, stainless steel, rubber material, glass material, transparent silicon material, opaque silicon material, polyester resin, polyethylene resin, polycarbonate resin, polymer resin, polypropylene Hydrophilic equipment for hydroponic cultivation and bacterial culture, characterized in that the resin is made of one selected from a synthetic resin mixed with them.
The method of claim 1,
The remaining area on the lower surface of the second converging pipe except for the setting member is plastic, acrylic, bronze, pottery, stainless steel, rubber, glass, transparent silicon, opaque silicon, polyester resin, or polyethylene resin. , A polycarbonate resin, a polymer resin, a polypropylene resin, and is characterized in that it is filled with a barrier film made of one selected from a synthetic resin mixed therewith,
The blocking membrane is hydrophilic equipment for hydroponic culture and bacterial culture, characterized in that it comprises a plurality of holes penetrated up and down at intervals.
The first converging tube converges the upper stem portion of the hydroponic crop to the first predetermined internal space so that the upper stem portion of the hydroponic crop is fixed to the first stem without deviating from the outside by the first vortex. Holding in the safe area;
The second converging tube converges the middle and lower stem portions of the hydroponic crop into a second predetermined internal space so that the middle and lower stem portions of the hydroponic crop are seated without a second detachment by the second vortex. Holding in the safe area of the inner space;
A pipe connecting support is attached to one outer side of each of the first and second converging pipes so that the first and second converging pipes form a straight rod from the outer one side of the first converging pipe to the outer one side of the second converging pipe. Connecting the two to each other;
Air adsorption plates are respectively installed on the first and second rear surfaces corresponding to the first and second attachment surfaces of the pipe supporters respectively attached to the outer one side of the first and second converging tubes, respectively, to be adsorbed on the outer wall surface by an air adsorption method. Becoming; And
A setting member not only supports the root of the hydroponic crop so that the hydroponic crop is seated, but also sets the flagella or cilia of the anaerobic bacterium to culture the anaerobic bacteria, thereby inducing the growth of the hydroponic crop or the anaerobic bacteria. Method of using hydrophilic equipment for hydroponic culture and bacterial culture comprising.
The method of claim 10, wherein the first, the second converging pipe, the pipe support or the setting member,
Plastic, acrylic, bronze, pottery, stainless steel, rubber, glass, transparent silicone, opaque silicone, polyester resin, polyethylene resin, polycarbonate resin, polymer resin, polypropylene resin and synthetic resin Method of using hydrophilic equipment for hydroponic cultivation and bacterial culture, characterized in that it further comprises the step of producing a cylindrical as well as a polygon by one of the selected.
11. The method of claim 10,
Manufacturing the air absorbing plate into a dome shape by a rubber material;
Fastening the first and second rear surfaces and the uppermost ends of the domes;
Discharging the air present in the dome to the outside by pressing the upper portion of the dome; And
Method of using hydrophilic equipment for hydroponic cultivation and bacterial culture, characterized in that further comprising the step of automatically detaching the air adsorption plate to the adjacent wall by the adsorption force generated by the discharge.
The method of claim 10, wherein the setting member
Cultivating plant-like moss or fungi for aquatic life, including the anaerobic bacteria, by using a flat upper part extending from the lower surface of the pipe support and crossing the center of the lower surface of the second converging pipe. Method of using hydrophilic instruments for cultivation and bacterial culture.
11. The method of claim 10,
Even if the first and second vortices hit the first and second converging tube outer surface parts, at least one rod is converged so that the current attachment position or the current attachment state of the first and second converging tubes is maintained as it is. Installed on the inner side of the tube; And
The at least one rod is plastic material, acrylic material, bronze, pottery, stainless steel, rubber material, glass material, transparent silicon material, opaque silicon material, polyester resin, polyethylene resin, polycarbonate resin, polymer resin, polypropylene A method of using hydrophilic equipment for hydroponic cultivation and bacterial culture, characterized in that it further comprises a step produced by a selected one of a resin and a synthetic resin mixed with them.
11. The method of claim 10,
The remaining area on the lower surface of the second converging pipe except for the setting member is plastic material, acrylic material, bronze, pottery, stainless steel, rubber material, glass material, transparent silicon material, opaque silicon material, polyester resin, polyethylene resin And, further comprising the step of being filled by a barrier film made of one selected from polycarbonate resin, polymer resin, polypropylene resin and a synthetic resin mixed therewith,
The blocking membrane is a hydroponic cultivation method and the use of hydrophilic equipment for bacterial culture, characterized in that it comprises a plurality of holes penetrated up and down at intervals.

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