KR102034514B1 - Hydroponic Cultivation System Using Ionized Water - Google Patents

Abstract

The present invention relates to a hydroponic cultivation system using ionized water which comprises an ionization device (100) for ionizing water; a hydroponic cultivation device (200) in which ionized water is supplied; a pipe for supplying ionized water of the ionization device (100) to the hydroponic cultivation device (200); and a plurality of hydroponic beds mounted on the hydroponic cultivation device (200), wherein the ionization device (100) comprises: an inlet (11) through which water is introduced; a flow rate part for measuring the amount or speed of water passing through the inlet (11) to a filter part (13); and an electrode part (18) to ionize water passed through the filter part (13). According to the present invention, it is possible to grow healthy ginseng by hydroponically growing ginseng using ionized water.

Description

Freshwater Cultivation System Using Ionized Water

The present invention relates to a fresh water cultivation system using ionized water.

Ginseng (人蔘, Panax ginseng C.A. Meyer) is a perennial herb belonging to the family Arboraceae, and is known as an important medicine for oriental medicine. It is included in the consent of Korea and many ancient medical books in China.

Ginseng is used to rejuvenate, to treat physical weakness, boredom, fatigue, anorexia, vomiting, diarrhea, etc. It helps pulmonary function, produces essence, enhances nephropathy and renal function. The pharmacological action of ginseng has been reported to have cerebral cortex excitement and suppression, equilibrium, anti-fatigue, anti-aging, immune enhancement, heart contraction, gonadotropin, hyperglycemia suppression, protein synthesis, homeostasis, anticancer, detoxification.

Recently, as consumers' interest in health increases, consumption of eco-friendly agricultural products increases, and in the case of ginseng, it is necessary to grow eco-friendly agricultural methods. Accordingly, there have been attempts to shorten the growth period of ginseng and to reduce the use of pesticides.

The present invention relates to a hydroponic cultivation system of ginseng, in particular, to hydroponic cultivation using ionized water.

Publication No. 10-2019-0047943 (2019.05.09) Registered Patent No. 10-1784267-0000 (2017.09.27)

In the present invention, ginseng is hydroponically grown using ionized water.

In addition, the present invention is to provide a structure to facilitate the cleaning in the hydroponic bed for growing ginseng.

In addition, the present invention is intended to be able to add a cleaning device that can facilitate the cleaning of the bottom surface of the hydroponic bad.

In addition, the present invention is intended to be easily removable to the cleaning device to the hydroponic bath.

The present invention is an ionization device 100 for ionizing water; Hydroponic cultivation device 200 is supplied with the ionized water; And a pipe for supplying the ionized water of the ionization device 100 to the hydroponic cultivation apparatus 200, wherein the ionization device 100 passes through an inlet 11 through which water is introduced and the inlet 11. Fresh water cultivation system using ionized water including a flow rate unit 12 for measuring the amount or speed of water supplied to the filter unit 13 and an electrode unit 18 for ionizing the water passing through the filter unit 13 It is about.

In addition, the hydroponic cultivation apparatus 200 is the first to sixth vertical frame (211a, 220a, 211b, 220b, 211c, 220c) installed side by side in the vertical direction, the first vertical frame (211a) and the second A first upper horizontal frame 221a connecting an upper portion of the vertical frame 220a, a second upper horizontal frame 221b connecting an upper portion of the third vertical frame 211b and a fourth vertical frame 220b, and First hydroponic bad frame 212a installed from the bottom between the third upper horizontal frame 221c connecting the upper portions of the fifth vertical frame 211c and the sixth vertical frame 220c and the first to sixth vertical frames. ), A second hydroponic bad frame 212b and a third hydroponic bad frame 212c.

In addition, first to third hydroponic beds 300a, 300b, and 300c are installed on the upper portions of the first to third hydroponic bad frames, respectively, and ginseng in the first to third hydroponic beds 300a, 300b, and 300c. This can be grown.

Further, in the present invention, a first intermediate horizontal frame 216a and a second intermediate horizontal frame 216b are installed between the first vertical frame 211a and the second vertical frame 220a from the bottom. Between the third vertical frame 211b and the fourth vertical frame 220b, a third intermediate horizontal frame 216c and a fourth intermediate horizontal frame 216d are installed from below, and the fifth vertical frame 211c and The fifth intermediate horizontal frame 216e and the sixth intermediate horizontal frame 216f are installed from the bottom between the sixth vertical frames 220c, and the first, third and fifth intermediate horizontal frames 216a, 216c, A first horizontal pipe 225a for connecting the 216e and supplying the ionized water, and a second connecting the second, fourth and sixth intermediate horizontal frames 216b, 216d, and 216f for providing the ionized water. Horizontal piping 225b is provided and connects the first to third upper horizontal frames 221a, 221b, and 221c. Said to provide a water may be the third horizontal pipe (225c) is provided.

In addition, a second vertical supply port 214a and a third vertical supply port 215a are installed in each of the first and second hydroponic beds 300a and 300b, and the second vertical supply port 214a and The third vertical supply port 215a is connected by the first connection pipe 213a so that the ionized water supplied to the second hydroponic bath 300b may be transferred to the first hydroponic bath 300a, and the second A fourth vertical supply port 214b and a fifth vertical supply port 215b are installed in the hydroponic bath 300b and the third hydroponic bed 300c, respectively, and the fourth vertical supply port 214b and the fifth vertical supply port are installed. 215b may be connected by the second connection pipe 216b so that the ionized water supplied to the third hydroponic bath 300c may be transferred to the second hydroponic bath 300b.

In addition, the first hydroponic bath 300a may have a bottom surface 311, a first side surface 310 and a second side surface 312 facing each other, and a third side surface 313 and a fourth side surface 317 facing each other. The third side surface 313 has a shorter length than the first side surface 310, and the bottom surface 311 includes a first bottom surface 311a and a second bottom surface 311b. The second bottom surface 311b has a shape having a lower height than the first bottom surface 311a, and a drain pipe 314 may be provided below the second bottom surface 311b.

In addition, a first that can be fitted to the first to fourth side (310, 312, 313, 317) to detach the cleaning device 500 for cleaning the bottom 311 of the first hydroponic bath (300a) To fourth fixing blocks 321, 322, 323, and 324, and vertical grooves 312d are formed in the first fixing blocks 321 to be fitted to the fourth side surfaces 317. The cleaning device 500 includes first and second horizontal bars capable of horizontally moving from the first guide bar 511 and the second guide bar 521 and the first and second guide bars 511 and 521 which are parallel to each other. A horizontal moving bar horizontally moving together with the first and second horizontal moving sliding blocks 512 and 520 between the moving sliding blocks 512 and 520 and the first and second horizontal moving sliding blocks 512 and 520. 519).

In addition, the first guide bar 511 is supported by the first and second fixing blocks 321 and 322, and the second guide bar 521 is connected to the third and fourth fixing blocks 323 and 324. Is supported by the horizontal movement bar 519 may be provided with a rotary brush 518.

In addition, the first horizontal moving sliding block 512 includes a motor mounting block 514 for installing the motor 516, and the horizontal moving bar 519 by the belt 517 when the motor 516 rotates. ) Can be rotated.

According to the present invention it was possible to grow healthy ginseng by hydroponically growing ginseng using ionized water,

Moreover, the structure by this invention was able to make cleaning easy to the hydroponic bed which grows ginseng.

1 is a block diagram of the present invention fresh water cultivation system.
2 is a configuration diagram of the ionization device 100.
3 is a configuration diagram of the electrode unit 18.
4 is a perspective view of the hydroponic cultivation apparatus 200 of the present invention.
5 is a perspective view of the bad part 300a in the present invention.
6 is a perspective view in which the cleaning device 500 is installed in the bed part 300a.
7 is a perspective view of the cleaning device 500.
8 is a side view of the fixing block 321 for mounting the cleaning device on the bed 300a.
9 is a block diagram of the filter unit 400 used in the present invention.
10 is a table showing experimental data for the Examples and Comparative Examples according to the present invention.

The present invention may be variously modified and have various embodiments, and specific embodiments will be illustrated in the drawings and described in detail with reference to the accompanying drawings. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

As shown in Figure 1, the present invention is to provide ionized water to the hydroponic cultivation apparatus 200 for hydroponically growing ginseng.

The ionization device 100 for providing the ionized water is connected to the hydroponic cultivation apparatus through a pipe.

2 is a configuration diagram of an ionization device, the function of the technical means as follows.

The power supply unit 14 supplies electricity to the ionizer 100. The filter unit 13 filters and purifies suspended solids or contaminants that are flowing into the inlet port 11 while the electricity is supplied to the power supply unit 10 and moved to the supply pipe.

The flow rate unit 12 measures the amount and flow rate of the water when the water passing through the filter unit 13 flows through the supply pipe through a flow meter or a flow meter.

The temperature sensor unit 19 measures the temperature of the water passing through the flow rate unit 12.

The electrode unit 18 is for generating a concentration of sterilizing ions by electrolyzing the water passing through the filter unit 13.

As shown in FIG. 3, the electrode portion 18 is provided with electrodes 18b stacked in a lattice form and a gap 18a between the electrodes.

Here, the gap 52 is to fix the suspended matter in the water passing through the filter unit 20 to a gap of 0.3 to 5.0mm, which does not affect between the electrodes to enable efficient reaction of electricity, the electrode 51 is an alloy selected from titanium, platinum, iridium, rhodium, tungsten, or an alloy made at a constant ratio thereof.

The water ionized while passing through the electrode unit 18 is supplied to the hydroponic cultivation apparatus 200 and used.

The hydroponic cultivation apparatus 200 of the present invention shown in FIG. 4 is provided with first to third hydroponic beds 300a, 300b, and 300c, and ginseng is grown inside the hydroponic bed.

The hydroponic cultivation apparatus 200 includes a first upper horizontal frame that connects a first vertical frame 211a, a second vertical frame 220a, and an upper portion of the first vertical frame 211a and the second vertical frame 220a. 221a.

In addition, the fourth vertical frame 211b and the fifth vertical frame 211c and the second vertical frame 220a that are arranged side by side in the lateral direction and the fourth vertical frame 211a in the lateral direction. The vertical frame 220b and the sixth vertical frame 220c are included.

In addition, the second upper horizontal frame 221b connecting the upper portions of the third vertical frame 211b and the fourth vertical frame 220b, and the fifth vertical frame 211c and the sixth vertical frame 220c, respectively. And a third upper horizontal frame 221c connecting the upper portion.

And a first hydroponic bad frame 212a, a second hydroponic bad frame 212b, and a third hydroponic bad frame 212c installed from a lower portion between the first to sixth vertical frames. First to third hydroponic beds 300a, 300b, and 300c are installed on the upper portions of the hydroponic bad frames.

In addition, a first intermediate horizontal frame 216a and a second intermediate horizontal frame 216b are installed between the first vertical frame 211a and the second vertical frame 220a.

Similarly, a third intermediate horizontal frame 216c and a fourth intermediate horizontal frame 216d are disposed between the third vertical frame 211b and the fourth vertical frame 220b, and the fifth vertical frame 211c is provided. And a fifth intermediate horizontal frame 216e and a sixth intermediate horizontal frame 216f between the sixth vertical frames 220c.

First, third, and fifth intermediate horizontal frames 216a, 216c, and 216e are provided with first horizontal pipes 225a to provide ionized water.

In addition, second, fourth, and sixth intermediate horizontal frames 216b, 216d, and 216f are also provided with second horizontal pipes 225b to provide ionized water, and first to third upper horizontal frames 221a and 221b. And 221c, the third horizontal pipe 225c is also provided.

First to fifth upper supply ports 226a, 226b, 226c, 226d, and 226e are installed at the first to third horizontal pipes 225a, 225b, and 225c, and ionized water is supplied to the hydroponic baths 300a, 300b, and 300c. Is fed to the top of the.

A first vertical supply port 224a may be installed at the side surface of the first hydroponic bath 300a so that ionized water may be supplied from the side of the first hydroponic bath 300a.

In addition, a first side supply port 229a and a second side supply port 229b are provided on the side surfaces of the second hydroponic bath 300b and the third hydroponic bath 300c, such that the ionized water is supplied to the second hydroponic bed 300b. And a side surface of the third hydroponic bath 300c.

Ionization water pipes are installed in the first vertical supply port 224a and the first to second side supply ports 229a and 229b to supply ionized water from the ionization device.

In addition, a second vertical supply port 214a and a third vertical supply port 215a are installed in each of the first and second hydroponic beds 300a and 300b, and the second vertical supply port 214a and The third vertical supply port 215a may be connected by the first connection pipe 213a so that the ionized water supplied to the second hydroponic bath 300b may be transferred to the first hydroponic bath 300a.

Similarly, a fourth vertical supply port 214b and a fifth vertical supply port 215b are installed in each of the second hydroponic bath 300b and the third hydroponic bed 300c, and the fourth vertical supply port 214b and The fifth vertical supply port 215b may be connected by the second connection pipe 216b so that the ionized water supplied to the third hydroponic bath 300c may be transferred to the second hydroponic bath 300b.

In this way, the water supplied to the hydroponic badly installed in the upper portion may be supplied to the hydroponic badly installed in the lower portion.

5 and 6 are perspective views of the first hydroponic bath of the present invention, showing a first side surface 310, a second side surface 312, a third side surface 313, a fourth side surface 9317, and a bottom surface 311. Doing.

The first side surface 310 and the second side surface 312 are parallel to each other, and the third side surface 313 is shorter in length than the first side surface 310 and 312.

The bottom surface 311 is composed of a first bottom surface 311a and a second bottom surface 311b, and the second bottom surface 311b has a lower shape than the first bottom surface 311a. The drain pipe 314 is provided below the second bottom surface 311b.

The second bottom surface 311b has a lower height than the first bottom surface 311a so that the ionized water inside the hydroponic bath 300a can be easily discharged during cleaning.

In addition, in the present invention, the cleaning apparatus 500 of FIG. 7 may be detachably attached to the first hydroponic bad 300a to easily clean the bottom 311 of the hydroponic bad.

In order to attach and detach the cleaning device 500 to the first hydroponic bath 300a, the first to fourth fixing blocks 321, 322, 323, and 324 may include the first to fourth side surfaces of the first hydroponic bath 300a ( 310, 312, 313, 317 can be fitted.

As shown in FIG. 8, the first fixing block 321 has a vertical groove 312d formed in the fourth side surface 317, and further includes a support 321c, and the support 321c. ), A support groove 321d may be installed so that one end of the first guide bar 511 of the cleaning device 500 may be fitted thereto.

Similarly, the second fixing block 322 is fitted to the third side surface 313 so that the remaining end of the first guide bar 511 is fitted, and the third to fourth fixing blocks 323 and 324 are the fourth side surface 317. ) And the third side surface 313 to support the second guide bar 521 of the cleaning device 500.

Each of the first guide bar 511 and the second guide bar 521 is provided with first and second horizontal moving sliding blocks 512 and 520 to move horizontally, and the first and second horizontal moving sliding slides. The blocks 512 and 520 are connected by horizontal moving bars 519, and when the first and second horizontal moving sliding blocks 512 and 520 move horizontally, the horizontal moving bars 519 move together.

The motor 516 is installed by the motor installation block 514 in the first horizontal moving sliding block 512, and the rotational degree of the horizontal moving bar 519 by the belt 517 when the motor 516 rotates. It is possible.

A rotating sole 518 is installed on the horizontal moving bar 519 so that the rotating sole 518 rotates when the motor 516 operates, and the user moves the first horizontal moving slide block 515 or the second horizontal moving. The inside of the first hydroponic bath 300a may be cleaned while changing the position of the sliding block 520.

FIG. 9 illustrates that filters 410 and 420 are installed between pipes of ionized water to remove foreign substances flowing through the pipes.

The present invention uses ionized water, the comparative example of which is shown in the table shown in FIG.

Ginseng stem growth of test subjects was faster than that of comparable ginseng stems as time passed after ginseng seedlings, and root and erosion phenomena of ginseng caused by growth of microorganisms appeared after 10 days. On the other hand, the ginseng root of the test subject was clean. In addition, the root rupture phenomenon identified during the first planting process is not progressed anymore, and it is partially confirmed that it is healing itself. The results and the results of this experiment show that dissolved oxygen in water affects the growth of ginseng, and it was found that OH-radicals in water have the effect of inhibiting the growth by sterilizing microorganisms (bacteria). These phenomena suggest that the temperature of dissolved oxygen, OH-radicals, and water must be maintained properly for the growth of hydroponic ginseng.

 Although a preferred embodiment of the present invention has been described so far, those skilled in the art will be able to implement in a modified form without departing from the essential characteristics of the present invention. Therefore, the embodiments of the present invention described herein are to be considered in descriptive sense only and not for purposes of limitation, and the scope of the present invention is shown in the appended claims rather than the foregoing description, and all differences within the equivalent scope are set forth in the present invention. Should be interpreted as being included in.

100: ionization apparatus 200: hydroponic cultivation apparatus
410, 420: filter

Claims (5)

Ionizer 100 for ionizing water;
Hydroponic cultivation device 200 is supplied with the ionized water; And
It includes a pipe for supplying the ionized water of the ionization device 100 to the hydroponic cultivation device 200,
The ionization apparatus 100 includes an inlet 11 through which water is introduced, a flow rate unit 12 measuring the amount of water supplied to the filter unit 13 through the inlet 11, and the filter unit 13. An electrode portion 18 for ionizing the water that has passed,
The hydroponic cultivation apparatus 200 includes first to sixth vertical frames 211a, 220a, 211b, 220b, 211c, and 220c installed in parallel to each other in the vertical direction, the first vertical frame 211a, and the second vertical frame. A first upper horizontal frame 221a connecting the upper portion of the 220a, a second upper horizontal frame 221b connecting the upper portions of the third vertical frame 211b and the fourth vertical frame 220b, and the fifth The third upper horizontal frame 221c connecting the upper part of the vertical frame 211c and the sixth vertical frame 220c, and the first hydroponic bad frame 212a installed from the bottom between the first to sixth vertical frames. A second hydroponic bad frame 212b and a third hydroponic bad frame 212c,
First to third hydroponic beds 300a, 300b, and 300c are installed on upper portions of the first to third hydroponic bad frames, and ginseng is grown in the first to third hydroponic beds 300a, 300b, and 300c. Can be,
Between the first vertical frame 211a and the second vertical frame 220a, a first intermediate horizontal frame 216a and a second intermediate horizontal frame 216b are installed from below.
Between the third vertical frame 211b and the fourth vertical frame 220b, a third intermediate horizontal frame 216c and a fourth intermediate horizontal frame 216d are installed from below.
Between the fifth vertical frame 211c and the sixth vertical frame 220c, a fifth intermediate horizontal frame 216e and a sixth intermediate horizontal frame 216f are installed from below.
The first, third and fifth intermediate horizontal frames (216a, 216c, 216e) is provided with a first horizontal pipe 225a to provide ionized water,
The second, fourth and sixth intermediate horizontal frames 216b, 216d, and 216f have second horizontal pipes 225b for providing ionized water.
Third horizontal pipes 225c for providing ionized water are installed in the first to third upper horizontal frames 221a, 221b, and 221c,
A second vertical supply port 214a and a third vertical supply port 215a are installed in each of the first hydroponic bath 300a and the second hydroponic bed 300b, and the second vertical supply port 214a and the third vertical supply port 214a are provided. The vertical supply port 215a is connected by the first connection pipe 213a so that the ionized water supplied to the second hydroponic bath 300b may be transferred to the first hydroponic bath 300a.
A fourth vertical supply port 214b and a fifth vertical supply port 215b are respectively installed in the second hydroponic bath 300b and the third hydroponic bath 300c, and the fourth vertical supply port 214b and the fifth vertical supply port 214b are provided. The vertical supply port 215b is connected by the second connection pipe 216b so that the ionized water supplied to the third hydroponic bath 300c may be transferred to the second hydroponic bath 300b.
The first hydroponic bath 300a includes a bottom surface 311, a first side surface 310 and a second side surface 312 facing each other, and a third side surface 313 and a fourth side surface 317 facing each other. And, the third side 313 is shorter than the first side 310,
The bottom surface 311 includes a first bottom surface 311a and a second bottom surface 311b, and the second bottom surface 311b has a lower shape than the first bottom surface 311a. And a drain pipe (314) is provided below the second bottom surface (311b). The method of claim 1,
The first to the first that can be fitted to the first to fourth side (310, 312, 313, 317) to detach the cleaning device 500 for cleaning the bottom 311 of the first hydroponic bath (300a) 4 fixing blocks 321, 322, 323, 324,
A vertical groove 312d is formed in the first fixing block 321, and may be fitted to the fourth side surface 317.
The cleaning device 500 may include first and second guide bars 511 and second guide bars 521 and first and second guide bars 511 and 521 which may be horizontally moved in parallel with each other. A horizontal movement sliding block 512, 520 and the first and second horizontal movement sliding blocks 512, 520 move horizontally together with the first and second horizontal movement sliding blocks 512, 520. A bar 519,
The first guide bar 511 is supported by the first and second fixing blocks 321 and 322,
The second guide bar 521 is supported by the third and fourth fixing blocks 323 and 324,
The horizontal movement bar 519 is a fresh water mirror cultivation system using ionized water, characterized in that the rotary brush 518 is installed. The method of claim 2,
The first horizontal moving sliding block 512 includes a motor installation block 514 for installing the motor 516,
Fresh water mirror cultivation system using the ionized water, characterized in that the horizontal movement bar 519 is rotated by the belt 517 when the motor 516 rotates.
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