KR20180015534A - Colored Dissolved oxygen device for nutrient solution culture - Google Patents

Abstract

The present invention relates to an oxygen dissolution device for nutriculture. More specifically, the present invention relates to a novel type of oxygen dissolution devices for nutriculture. Through dissolution of oxygen water inserted into a nutriculture facility in an attempt to promote growth of garden products, it is possible to sustain high oxygen content in the nutrient solution by delaying a time for the oxygen water dissolved in the nutrient solution by mixing the oxygen water with the nutrient solution in a form of particles. Particularly, by anionizing the oxygen water released by functional substances accommodated in the oxygen dissolution device, it is possible to maximize efficiency of the nutrient solution by making balance with the nutrient solution.

Description

TECHNICAL FIELD The present invention relates to an oxygen dissolution apparatus for nutrient solution cultivation,

The present invention relates to an oxygen dissolution apparatus for nutrient solution cultivation, and more particularly, to a method for dissolving oxygen water into a nutrient solution cultivation facility for promoting growth of a horticultural crop, It is possible to sustain the high oxygen content of the nutrient solution by retarding the nutrient solution. In particular, a new type of nutrient solution which can maximize the nutrient solution efficiency through the balance with the nutrient solution by converting the oxygen water discharged through the functional material contained in the oxygen dissolution device into anion To an oxygen dissolution apparatus.

In general, the nutritional benefits of nutrient cultivation are that nutrients are readily available in plant-derived form, are readily available in the culture, their supply and control can be easily controlled, and there is no risk of any toxic substances present. On the other hand, if nutrients are insufficient, it should be added artificially, there is no buffering effect due to a large supply, and there is a disadvantage that if the air is insufficient, it is not inserted.

In soil cultivation, the soil is loosely bound to nutrients, and the deficiency is supplied by the soil itself, and even if it is fertilized in a large amount, it has a buffering action, a good ventilation and a good root fixation by the soil. However, There is a problem that it is insolubilized or the roots need to find the nutrients directly, the rational control of the nutrients is difficult, and sometimes the toxic substances are produced.

Therefore, the hydroponic cultivation of the horticulture of the facility has the advantages of rapid growth of crops rather than soil cultivation and it is possible to cultivate the crop annually without the need of a break due to the interruption of the crops. It also has advantages such as labor saving, increase of production, When the roots were dissolved in the soil, oxygen deficiency phenomenon occurred, and various physiological functions due to the decrease of the activity of the respiration were weakened, and the failure rate was high.

This failure of the nutrient solution due to lack of oxygen is due to the decrease of absorption of P, K, Ca, Mn due to the lack of oxygen,

In recent years, as a known technique for preventing the root solution from being dissolved due to the lack of oxygen in the nutrient solution cultivation facility, Patent Registration No. 10-1284631 (Registered on July 04, 2013) ,

And a nutrient solution pump (80) for feeding the nutrient solution (1) stored in the nutrient solution reservoir (90) to the hydroponic reactor battle (50) through a nutrient solution supply pipe (35)

The first discharge hole (10) and the second discharge hole (20) having different sizes for discharging the nutrient solution in the hydraulic fluid battle (50) to the outside are located on the side surface of the hydraulic lathe battle (50) The size of the discharge hole 20 is larger than the size of the first discharge hole 10 and smaller than that of the hydraulic particle battle 50 and the position of the second discharge hole 20 is larger than the size of the first discharge hole 10 And the second discharge pipe 22 connected to the second discharge hole 20 is formed integrally with the first discharge pipe 12 connected to the first discharge hole 10, The second discharge pipe 22 is formed in a shape having a horizontal part 22a and a vertical part 22b and the first discharge pipe 12 is connected to the vertical part 22b of the second discharge pipe 22 And a suction hole connected to the nutrient solution pump 80 of the nutrient solution reservoir 90 through the nutrient solution supply pipe 35 is connected to one side of the hydroponic rechargeable battle 50 at an upper portion of the second discharge hole 20 Type Is, by the free fall of energy is characterized in that so that the oxygen is supplied with the nutrient solution circulating.

Another prior art patent registration No. 10-1236216 (Registered on Feb. 18, 2013) is a device for increasing dissolved oxygen and a river structure comprising the same,

A housing having a predetermined internal space and formed with a cutting hole communicating with the outside at one side and having a plurality of openings through which water flows in front and rear along the flow direction of the water;

And an oxygen supply unit provided in an inner space of the housing to connect the openings formed in the front and back surfaces of the housing to supply oxygen to water passing through the openings.

However, although the above-mentioned prior arts have a feature of increasing the amount of dissolved oxygen through the supply of oxygenated water, there is a problem in that dissolved oxygen is mixed into the nutrient solution in the form of air bubbles and is easily destroyed into the air.

These problems can not be solved by the increase of the dissolved oxygen amount due to the lowering of the mixing ratio with the nutrient solution, so that the problems of oxygen deficiency in the roots of the plants have not been solved.

In addition, even if the amount of dissolved oxygen is increased to increase the mixing ratio of the nutrient solution and the dissolved oxygen, mixed oxygen is mixed in the form of air bubbles and the mixed state can not be maintained continuously. In the process of transferring to the nutrient solution growing plant, To 80% of the total amount of exhaust gas.

Disclosure of the Invention The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a nutrient solution mixed with dissolved oxygen by mixing granular dissolved oxygen in a nutrient solution to continuously maintain a high oxygen concentration, It is possible to sufficiently supply oxygen to the roots of the crops, thereby preventing the weakening of various physiological functions due to the deactivation of the respiratory activity caused by the lack of oxygen, so that a new type of oxygen dissolution apparatus for nutrient solution .

Another object of the present invention is to provide a method for preparing a nutrient solution for nutrient solution cultivation which is capable of enhancing the efficiency of a nutrient solution by balancing nutrient solution crops with anionization of a nutrient solution by feeding nutrient solution containing dissolved oxygen through a layer of functional material to a crop, Device.

The above object of the present invention is achieved by a partition wall 11 formed with a plurality of holes 111 at an edge thereof and being partitioned into a drum accommodating portion 12 and a moving space portion 13 and having one side sealed with a flange 14, (10) having an outlet (15) formed integrally therewith;

A supply pipe 22 formed inside the dissolution tube 10 and having one side exposed to the outside of the dissolution tube 10 to form an inflow port 22 and the other side to be located in the cartridge accommodating portion 12 and having a plurality of spray holes 21, (20);

And a cover (30) filled in the cover accommodating part (12).

The spray hole (21) is characterized in that the supply pipe (20) is spirally formed on the surface.

The cover 30 is characterized in that it is 2 to 20 mm in size.

In another embodiment of the above-mentioned cover 30, at least one mineral fine powder 45 selected from 20 to 30 parts by weight of loess, 15 to 25 parts by weight of unbleached wood sawdust powder, volcanic stone, volcanic ash, mica, shale, To 65 parts by weight of water were added and the mixture was kneaded to form a spherical body having a size of 2 to 20 mm and dried in a drying furnace at 100 to 200 ° C for 2 to 24 hours to a moisture content of 10% Lt; 0 > C for 3 to 5 hours.

As described above, the oxygen dissolution apparatus for nutrient solution according to the present invention can be easily installed in the existing nutrient cultivation facility farmhouse through the small size and light weight, and the number of the dissolution tube can be adjusted and installed according to the size of the installed farmhouse And the maintenance cost is inexpensive.

In addition, since oxygen water mixed in the chemical liquid is mixed and granulated, it is possible to continuously maintain a high dissolved oxygen amount even if a small amount of oxygen water is used, thereby preventing the exhaustion of dissolved oxygen due to temperature changes during migration to a nutrient solution cultivation facility, To help the root growth of the crops, thereby promoting the harvesting period and growth of the crops and ensuring the high growth promotion that the stems become hardened and hardened.

In addition, it can be widely applied to hydroponics, vetch, and soil in horticultural agriculture facilities such as flower farms, and can be widely applied to general fields using water such as bean sprouts, host cultivation and high concentration oxygenated water drink.

1 is a partial cross-sectional perspective view of a dissolution tube in an oxygen dissolution apparatus for nutrient solution cultivation according to the present invention;
2 is a schematic view showing the oxygen dissolution process of the oxygen dissolution apparatus for nutrient solution cultivation according to the present invention
3 is a cross-sectional view of one embodiment of the oxygen dissolution apparatus for nutrient solution cultivation according to the present invention
4 is a perspective view of another embodiment of the supply pipe of the oxygen dissolving apparatus for nursing solution cultivation according to the present invention
5 is a sectional view taken along the line AA in Fig. 4

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

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It does not mean anything.

In addition, the sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms defined specifically in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user, operator It should be noted that the definitions of these terms should be made on the basis of the contents throughout this specification.

2 is a schematic view showing the oxygen dissolution process of the oxygen dissolution apparatus for nutrient solution cultivation according to the present invention, and FIG. 3 is a schematic view showing the oxygen dissolution process of the oxygen dissolution apparatus for nutrient solution cultivation according to the present invention. Sectional view of one embodiment of the oxygen dissolution apparatus for nutrient solution cultivation according to the present invention.

As shown in the drawing, the oxygen dissolving apparatus 100 for culturing a nutrient solution according to the present invention is configured such that one or a plurality of dissolution tubes 10 are connected to a nutrient solution or raw water supply line (not shown) The nutrient solution mixed with oxygen is passed through the dissolution tube 10 to be circulated in the nutrient solution cultivation facility.

The dissolution tube 10 is partitioned into a cartridge accommodating portion 12 and a moving space portion 13 by a partition 11 having a plurality of holes 111 formed therein and one side is sealed with a flange 14, And the discharge pipe 15 is formed at the central portion and the supply pipe 20 is introduced from the outside and the end portion is tightly sealed to the central portion of the partition 11.

A plurality of spray holes 21 are formed in a spiral shape on the surface of the supply pipe 20 and the other end of the supply pipe 20 is exposed to the outside of the melt pipe 10, Tightly welded to the central portion and sealed to the other fixed plate (16), so that the supply pipe (20) is firmly and integrally formed inside the melt pipe (10).

The oxygen water flows into the inlet 22 of the supply pipe 20 through a separate injection means (not shown). That is, in the course of circulating the raw water through the oxygen dissolving apparatus 100, The amount of oxygen is automatically introduced into the oxygen dissolving apparatus 100 while being mixed with the raw water and flowing from the inlet 22 side.

Thus, the input amount of the oxygen water is controlled by the sensor according to the measured value of the dissolved oxygen amount.

Meanwhile, in order to anchor the raw water mixed with the oxygenated water introduced into the drum container 12 of the dissolution tube 10, a mineral pigment having a size of 2 to 20 mm is filled, or a functional film made of various minerals is filled therein Adding functionalities of raw water mixed with oxygen water.

Specifically, the decorative sheet 30 is made of at least one mineral fine powder 45 to 65 selected from 20 to 30 parts by weight of loess, 15 to 25 parts by weight of white wood sawdust powder, volcanic stone, volcanic acid, mica, shale, diatomaceous earth, And the mixture is kneaded with water to form a spherical body having a size of 2 to 20 mm and dried in a drying furnace at 100 ° C to 200 ° C for 2 to 24 hours to a moisture content of 10% This is completed by firing in a drying oven for 3 to 5 hours until reaching 1000 캜.

These functional tiles are dried slowly over a long period of time, so that the structure of the tint is not infeasible in the process of evaporating the function in the tint.

In the sintering process, the temperature is gradually raised at a rate of 2 to 4 ° C per minute, so that the pore size is uniform, the surface crack does not occur, and the strength is advantageous.

By filling the tinted container made through the above-described structure into the container 12, it is possible to prevent the contamination of the raw water circulating through the nursery culture facility through sterilization of the raw water passing through the tint storage container.

On the other hand, the raw water mixed with the oxygen water discharged through the discharge port 15 of the dissolution tube 10 is connected to the spray nozzle (not shown) formed in the upper part of the nutrient solution cultivation facility and the raw water mixed with oxygen water is sprayed in the form of a sprinkler The temperature of the cultivation facility can be lowered to substantially improve the persistence of dissolved oxygen.

Hereinafter, the operation of the oxygen dissolution apparatus for culturing a nutrient solution according to the present invention will be described.

The raw water mixed with the oxygenated water flowing through the inlet 22 of the supply pipe 20 flows into the melt pipe 10 through the plurality of discharge holes 21 formed in the longitudinal direction by clogging the end portion of the supply pipe 20 with the partition wall 11 To the side of the recording medium accommodating portion 12 inside

The raw water mixed with the injected oxygen is passed through the spray hole 21 at a high pressure to change into a particle form, passed through the receptacle 12, is anionized or sterilized by the functional layer, To the moving space part (13) of the dissolution tube (10) through the hole (111) of the dissolution tube (10) and discharged through the discharge port (15) into the crop growing space.

If the concentration of dissolved oxygen in the nutrient solution is close to the set value set by the user in the state where circulation of the raw water mixed with the oxygen water continues, the supply of oxygen water is stopped and only the raw water is circulated through the oxygen dissolving apparatus 100, When the temperature is lowered, oxygen water is again supplied to maintain a constant dissolved oxygen amount of the nutrient solution, thereby maintaining the same growth environment of the crop.

By controlling the input amount of oxygen water as described above, the amount of dissolved oxygen is kept higher than the oxygen amount of the soil, thereby promoting the growth of crops, thereby accelerating the harvesting period and ensuring vigorous growth of the roots of the crops to ensure vigorous photosynthesis. . ≪ / RTI >

Hereinafter, the operation of the oxygen dissolution apparatus for culturing a nutrient solution according to the present invention will be described.

The raw water mixed with the oxygenated water flowing through the inlet 22 of the supply pipe 20 flows into the melt pipe 10 through the plurality of discharge holes 21 formed in the longitudinal direction by clogging the end portion of the supply pipe 20 with the partition wall 11 To the side of the recording medium accommodating portion 12 inside

The raw water mixed with the injected oxygen is passed through the spray hole 21 at a high pressure to change into a particle form, passed through the receptacle 12, is anionized or sterilized by the functional layer, To the moving space part (13) of the dissolution tube (10) through the hole (111) of the dissolution tube (10) and discharged through the discharge port (15) into the crop growing space.

If the concentration of dissolved oxygen in the nutrient solution is close to the set value set by the user in the state where circulation of the raw water mixed with the oxygen water continues, the supply of oxygen water is stopped and only the raw water is circulated through the oxygen dissolving apparatus 100, When the temperature is lowered, oxygen water is again supplied to maintain a constant dissolved oxygen amount of the nutrient solution, thereby maintaining the same growth environment of the crop.

By controlling the input amount of oxygen water as described above, the amount of dissolved oxygen is kept higher than the oxygen amount of the soil, thereby promoting the growth of crops, thereby accelerating the harvesting period and ensuring vigorous growth of the roots of the crops to ensure vigorous photosynthesis. . ≪ / RTI >

 <Picture 1. Dissolved oxygen amount by inputting general oxygen water>

 <Photo 2> The amount of dissolved oxygen introduced through the oxygen dissolution apparatus of the present invention>

As can be seen from the above comparative photograph, the amount of dissolved oxygen after input of dissolved oxygen was measured by using the oxygen amount of dissolved oxygen through the injection of common oxygen and the dissolved oxygen using the oxygen dissolving apparatus of the present invention As a result, it was found that the dissolved oxygen amount was 4.6 mg / L according to the input of general oxygen water, while the dissolved oxygen amount after passing through the oxygen dissolution apparatus for nutrient solution of the present invention was 50.4 mg / L, have.

On the other hand, the raw water circulating in a state where the dissolved oxygen concentration of the raw water is close to the set value and the supply of the oxygen water is interrupted is provided with a plurality of magnets 40 on the surface of the supply pipe 20 in order to prevent contamination of the raw water due to the continuous circulation The raw water flowing into the dissolving tube 10 through the supply pipe is fixed and magnetized by the magnet attached to the supply pipe 20 to prevent the fungus of the raw water from being propagated and to sterilize the raw water, To prevent contamination of raw water through sterilization.

4 is a perspective view of another embodiment of the supply pipe of the oxygen-dissolving apparatus for nursing solution cultivation according to the present invention, and Fig. 5 is a sectional view taken along the line A-A of Fig. 4. As shown in Fig.

As shown in the drawing, the supply pipe 20 of the present embodiment has a plurality of female screw holes 23 formed on the surface thereof and tightly fastens magnets on the surface of the supply pipe 20 by fastening bolts fitted with magnets.

Specifically, a female screw hole 23 is spirally formed in a space between a spray hole 21 formed in a spiral shape in the supply pipe 20 and a spray hole 21 adjacent to the supply hole 20, The bolt 60 having the washer 50 inserted therein is inserted into the through hole 41 and screwed into the female screw hole 23 to attach the magnet 40 having the through hole 41 to the surface of the supply pipe 20 So that the magnet 40 is fixed firmly.

The magnet 40 can be firmly fixed to the surface of the supply pipe 20 by rounding the surface of the magnet 40 which is in close contact with the supply pipe 20 so that the magnet 40 can be fixed to the vibration generated when the raw water moves, So that a magnetic force can be generated in the whole.

This magnetism is generated by magnetic treatment between strong magnets through raw water. When strong magnetism is passed through the raw water, a group of water molecules (like clusters) are safely arranged like a living body and form a hexagonal structure. The water molecule structure is ion-activated.

In other words, in the Lenzplame law, if the coil is moved orthogonally to the magnet, electricity flows through the coil, and the raw water contains various minerals, and when electricity is generated in the raw water, it is ionized and magnetized.

It is known that magnetized water produced by using this principle has an increase in surface tension, an increase in density, an increase in dissolved oxygen, a decrease in the size of a water molecule cluster, an increase in cell membrane permeability and a sterilizing action.

In addition, by continuously circulating the magnetized water to the oxygen dissolving apparatus for nutrient solution cultivation, it is possible to prevent the corrosion of the apparatus by suppressing the scale attachment to the circulating line of the raw water, and it is possible to remove scale and rust generated in the nutrient solution cultivation facility, Therefore, it is effective and easy to maintain the water quality of the raw water without requiring a separate device, and it is possible to prevent the occurrence of additional costs.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

10: melting tube 11: partition wall
111: hole 12:
13: moving space part 14: flange
15: outlet 16: fixed plate
20: Supply pipe 21:
22: inlet 23: female thread
40: Magnet 41: Through hole
50: Washer 60: Bolt

Claims (4)

A partition wall 11 formed with a plurality of holes 111 at an edge thereof is partitioned into a sheet accommodating portion 12 and a moving space portion 13 and one side is sealed with a flange 14 and a discharge port 15 is integrally formed A dissolution tube 10 formed;
A supply pipe 22 formed inside the dissolution tube 10 and having one side exposed to the outside of the dissolution tube 10 to form an inflow port 22 and the other side to be located in the cartridge accommodating portion 12 and having a plurality of spray holes 21, (20);
And a cover (30) filled in the cover accommodating portion (12)
In this case, the raw water mixed with oxygen is introduced into the supply pipe 20, injected through the injection hole 21, raw water mixed with oxygen is granulated, passed through the storage container 12, (15). &Lt; RTI ID = 0.0 &gt; 15. &lt; / RTI &gt;
The method according to claim 1,
Wherein the binder (30) is a quartz stone.
The method according to claim 1,
45 to 65 parts by weight of at least one mineral fine powder selected from the group consisting of 20 to 30 parts by weight of loess, 15 to 25 parts by weight of loose wood sawdust powder, volcanic stone, volcanic ash, mica, shale, The mixture was kneaded and kneaded with water to form spheres having a size of 2 to 20 mm. The kneaded product was dried in a drying furnace at 100 ° C. to 200 ° C. for 2 to 24 hours to a moisture content of 10% And firing the mixture for 3 to 5 hours until the temperature reaches 1000 ° C.
The method according to claim 1,
The supply pipe (20) has a plurality of female screw holes (23) formed on its surface,
A magnet 40 attached to an edge of the female screw hole 23 and having a through hole 41 formed at a central portion thereof;
And a bolt (60) screwed into the female screw hole (23) while being inserted into the through hole (41) of the magnet (40)
Here, the supply pipe (20) is characterized in that the raw water that moves the supply pipe (20) by the plurality of magnets (40) attached to the surface is changed into magnetized water by the magnetic force to prevent sterilization of the raw water and aging of the facility. Oxygen dissolving device for cultivation.

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