KR20190004178A - Multistage Plant Cultivating Device - Google Patents

Abstract

Disclosed is a multistage plant cultivating device. According to an embodiment of the present invention, the multistage plant cultivating device includes: a support unit; a column unit fixed to the support unit and including multiple nutrient solution supply holes on a side; multiple cultivation units installed between the multiple nutrient solution supply holes and including a column penetration hole which the column unit penetrates, wherein the multiple cultivation units can rotate around the column unit and can be separated from the column unit through the column penetration hole; a nutrient solution storage unit including one or more culture medium substances; a measurement unit measuring one or more among ingredient concentration of the culture medium, acidity of the culture medium, and conductivity of the culture medium; a control unit receiving measurement information from the measurement unit and generating a nutrient solution supply signal based on the measurement information; and multiple nutrient solution supply units. The nutrient solution supply unit includes: a nutrient solution supply hose extended from the inside of the column unit to the outside of the column unit through the multiple nutrient solution supply holes; and a nutrient solution supply pump supplying the culture medium substance from the nutrient solution storage unit to the multiple cultivation units through the nutrient solution supply hose in accordance with the nutrient solution supply signal. The main purpose of the present invention is to enable all plants to normally grow regardless of the position of the cultivation unit by providing the same amount of sunshine to the cultivation units of all steps.

Description

{Multistage Plant Cultivating Device}

This disclosure relates to multi-stage plant growers.

The description in this section merely provides background information on this disclosure and does not constitute prior art.

In recent years, most residential areas have been turned into apartments and office buildings. As a result, interest in planting vegetables and plants in the indoor area has increased in order to create self-sufficiency and emotional environment for leaf-eating vegetables . Thanks to such interest, a variety of plant growers have emerged for cultivating plants such as plants and vegetables in the interior.

However, the conventional plant growing apparatus has a problem that the amount of plants that can be cultivated is very small because the plant is limited to a small-sized indoor plant. To solve this problem, a multistage plant grower which can maximize the area where the plants are grown through the multiple stages of cultivation has emerged.

However, in conventional multi-stage plant growers, the amount of sunlight to be transmitted from the sun differs depending on the stage of the rearing section, and even if the same rearing section is the rearing section of the same stage, .

Therefore, there has been a problem that the plant grown in a conventional multistage plant grower varies in the degree of growth of the plant depending on the position where the plant is grown on the growing stage of the rearing section or the rearing section of the same stage.

In addition, the conventional plant growing machine has a problem that the user has difficulty in producing a culture liquid because of insufficient knowledge of plant cultivation. In addition, even if a user of a plant grower produces a culture liquid, it has not been able to properly cope with the state of the culture fluid continuously changing due to evaporation of water, nutrient absorption of the plant, and the like.

Accordingly, the main object of the present invention is to provide the same amount of sunshine to all the stages of the growing section, so that all the plants can normally grow regardless of the position of the growing section.

Further, the present invention has a main purpose in that even a person who lacks knowledge of plant cultivation can easily produce a culture liquid and can keep the culture liquid in a state suitable for plant cultivation.

According to an embodiment of the present invention, A column portion fixed to the receiving portion and including a plurality of nutrient solution supply holes on a side surface thereof; A plurality of regulating portions including a pillar through hole through which the pillars penetrate, the regulating portions being rotatable about the pillars and being separable from the pillars through the pillars, ; A nutrient solution reservoir containing at least one culture medium constituent; A measuring unit for measuring at least one of a component concentration of the culture liquid, an acidity of the culture liquid and an electric conductivity of the culture liquid; A control unit that receives measurement information from the measurement unit and generates a nutrient solution supply signal based on the measurement information; And a nutrient solution supply hose extending from the inside of the column through the plurality of nutrient solution supply holes to the outside of the column and a nutrient solution supply source for supplying the culture solution constituting material from the nutrient solution reservoir to the plurality of growers in accordance with the nutrient solution supply signal And a plurality of nutrient solution supply units including a pump.

As described above, according to the present embodiment, the multi-stage plant grower is constituted to be rotatable about the pillar portion of the cultivation portion and to be able to change the positions of the rearing portions at various stages, To thereby allow all the plants cultivated in the multi-stage plant grower to grow normally regardless of the position of the grower.

Further, according to this embodiment, a multi-stage plant grower can easily produce a culture solution even if a person lacks knowledge on plant cultivation by measuring the condition of the culture solution and supplying the necessary substance to the culture solution based on the measurement information, So that it can be maintained in a proper state.

1 is a perspective view of a multi-stage plant grower in accordance with one embodiment of the present disclosure;
2 is a side view of a multi-stage plant grower according to one embodiment of the present disclosure;
FIG. 3 is a perspective view showing that the cultivation part is fastened to the column part in the multi-stage plant grower according to the embodiment of the present disclosure.
FIG. 4 is a side view showing a state in which a cultivation part is fastened to a column part in a multi-stage plant cultivator according to an embodiment of the present disclosure; FIG.
5 is a block diagram of a multi-stage plant grower including a measurement unit, a control unit, a nutrient solution supply unit, and a nutrient solution storage unit according to an embodiment of the present disclosure.
6 is a block diagram of a multi-stage plant grower including a measurement unit, a control unit, a light emitting unit, a speaker, and a display according to an embodiment of the present disclosure.
7 is a block diagram of a multi-stage plant grower including a measurement unit, a control unit, and a communication unit according to an embodiment of the present disclosure.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the components of the embodiment according to the present invention, the first, second, i), ii), a), b) and the like can be used. These codes are for distinguishing the constituent elements from other constituent elements, and the nature of the constituent elements, the order and the order of the constituent elements are not limited by those codes. It is to be understood that when a component is referred to as being "comprising" or "comprising" an element in the specification, it does not exclude other elements, unless explicitly contradicted by the description, .

1 is a perspective view of a multi-stage plant grower 1 according to an embodiment of the present disclosure.

2 is a side view of a multi-stage plant grower 1 according to one embodiment of the present disclosure.

1, the multi-stage plant grower 1 includes a pedestal 100, a column 200, a cultivation unit 300, a nutrient solution storage unit 400, a light emitting unit 220, a speaker 240, 560 < / RTI >

The pedestal 100 fixes the column 200. The pedestal 100 can be positioned under the multi-stage plant grower 1 to support the weight of the column 200 and the rearing unit 300. The multi-stage plant grower 1 can support the weight of the multi- (1). ≪ / RTI >

In order to support the weight of the column portion 200 and the rearing portion 300 and to hold the center of the multi-stage plant grower 1, the receiving portion 100 may be in a flat plate shape, be stably supported on the ground surface, A member (not shown) capable of raising the weight of the multi-stage plant grower 1 may be included in the receiving portion 100.

The column portion 200 is fixed to the receiving portion 100. The posts 200 may pass through the plurality of reels 300 through the post holes 310 included in the redering unit 300. The plurality of penetrating reaming portions 300 can rotate about the column portion 200. According to an embodiment of the present invention, the plurality of rearing units 300 rotate about the column 200, so that the plants grown on the rearing unit 300 of the same stage receive the same amount of sunshine, It can grow.

A plurality of penetrating reaming portions 300 may be separated from the column portion 200 through an upper end of the column portion 200 by applying an external force upward. In addition, the plurality of reed portions 300 can be inserted into the column portion 200 downwardly through the upper ends of the column portions 200. It is possible to change the order in which the plurality of reaming portions 300 are inserted into the column portion 200 after the plurality of redering portions 300 are separated from the column portion 200, The rearing unit 300 may have a different fastening order from that before the separation. The plant cultivated on the rearing section 300 of the other stage is exposed to the same environmental conditions, for example, the same sunlight amount, by changing the order of fastening the plurality of rearing sections 300 to the column section 200 The same degree can be established.

The column portion 200 preferably has a cylindrical shape to facilitate the penetration of the reaming portion 300 and the rotation of the reaming portion 300.

The columnar section 200 is provided at the center of gravity of the rearing section 300 so as to facilitate the rotation of the rearing section 300 and evenly distribute the weight of the multi-stage plant grower 1 so that the multi- . For example, if the shape of the reapplication unit 300 is a circle or regular polygon, the column unit 200 preferably penetrates the center of the reaping unit 300.

The pillar 200 may have an empty space inside and the electric wire of the light emitting unit 220, the electric wire of the speaker 240, the nutrient solution supply unit 204, etc. may pass through the empty space of the column unit 200 have.

The column portion 200 includes a plurality of nutrient solution supply holes 202 on its side surfaces. A plurality of cultivation units 300 can be positioned between the plurality of nutrient solution supply holes 202.

The nutrient solution reservoir 400 includes one or more culture medium constituent materials 32. The culture liquid constituent material 32 contained in the nutrient solution storage section 400 may be selected from the group consisting of potassium nitrate, calcium nitrate, ammonium nitrate, ammonium monophosphate, potassium monophosphate, calcium sulfate, magnesium sulfate, But are not limited to, one or more of zinc sulfate, copper sulfate, and sodium molybdate. In addition, the nutrient solution storage section 400 may include raw water constituting the culture liquid.

In the illustrated embodiment of the present invention, the nutrient solution storage part 400 may be located outside the support part 100. However, the present invention is not limited thereto, and in another embodiment of the present invention, the nutrient solution storage part 400 may be located inside the receiving part 100 for saving space.

2, the plurality of nutrient supply sections 204 include a nutrient solution supply hose 205 and a nutrient solution supply pump 207. As shown in FIG.

The nutrient solution supply hose 205 extends from the inside of the column section 200 to the outside of the column section 200 through the nutrient solution supply hole 202.

The nutrient solution supply hose 205 is extended to the outside of the column portion 200 through the plurality of nutrient solution supply holes 202 and the plurality of the cultivation portions 300 are located between the plurality of nutrient solution supply holes 202, The nutrient solution supply hose 205 does not interfere with the rotation of the reamer 300 even if the portion 300 rotates around the column portion 200.

The nutrient solution supply pump 207 receives the nutrient solution constituent material 32 from the nutrient solution reservoir 400 through the nutrient solution supply hose 205 and transfers the same to the plurality of the cultivation units 300. A detailed description thereof will be described later with reference to Fig.

Referring again to FIG. 1, the plurality of reed portions 300 include a column through hole 310 through which the column portion 200 can pass. The pillar through hole 310 is pierced by the pillar 200 so that a plurality of the reaming portions 300 can rotate around the pillar 200. The plurality of cultivation units 300 rotate around the column 200 to allow plants grown on the same stage cultivation unit 300 to grow to the same extent.

For example, if the sun is shining on the left side of a multistage plant grower (1), the plant on the left side of the multistage plant grower (1) can receive a large amount of sunlight, The plants in the area are forced to receive a relatively small amount of sunlight.

The multi-stage plant grower 1 according to the present disclosure can rotate the rearing section 300 of each stage at intervals of a predetermined period, and thereby, it is cultivated on the rearing section 300 of the same stage Plants can receive the same amount of sunlight, regardless of where the sun is located in the multi-stage plant grower (1).

The plurality of reed portions 300 are configured to be detachable from the column portion 200 through the column through holes 310 so that the plurality of reed portions 300 are fastened to the column portion 200 You can change the order. The plurality of rearing units 300 change the order of fastening them to the posts 200 so that the plants grown on the rearing unit 300 of the other stage can grow to the same extent.

For example, if the sun is shining at the top of a multi-stage plant grower 1, the plants in the growing section 300A of the upper stage may receive a large amount of sunlight, The plants in the growing parts 300B and 300C of the plants need to receive a relatively small amount of sunlight.

The multi-stage plant grower 1 according to the present invention can change the order in which the rearing portion 300 of each stage is fastened to the column portion 200 at intervals of a predetermined period, Plants grown on the growing portion 300 of the multi-stage plant grower 1 can receive the same amount of sunlight regardless of where the sun is located in the multi-stage plant grower 1.

The specific shape of the column portion 200 and the redering portion 300 for allowing the reusing portion 300 to rotate about the column portion 200 and to be separated from the column portion 200 will be described with reference to FIGS. And will be described later.

The cultivation unit 300 may include a culture medium (not shown) therein. The culture medium provides nutrients to the plants being cultivated on the cultivation unit 300 so that the plants can grow. The composition of the culture medium and the composition ratio of each ingredient may vary depending on the type of cultivated plant and the cultivation environment.

The culture solution contains at least one of potassium nitrate, calcium nitrate, ammonium nitrate, ammonium monophosphate, potassium monophosphate, calcium sulfate, magnesium sulfate, chelate-iron, boric acid, manganese sulfate, zinc sulfate, copper sulfate and sodium molybdate But need not be limited thereto.

The plurality of cultivating units 300 have a circular shape so as to facilitate the rotation of the cultivating unit 300 and evenly distribute the weight of the multi-stage plant grower 1 so that the multi- desirable.

The rearing unit 300 may include a plant fixing unit 301 having a plurality of openings formed therein. The plant fixing unit 301 may be located above the rearing unit 300 and may be detachable from the rearing unit 300. Vegetation Fixing Unit 301 By inserting a cultivated plant into a plurality of openings, the cultivated plant can be fixed to the cultivation unit 300.

The light emitting unit 220 may be disposed at one or more of the receiving unit 100 and the column unit 200 and may be turned on or off according to the state of the culture liquid.

The speaker 240 may be disposed on at least one of the support portion 100 and the pillar portion 200. The speaker 240 can transmit information about the state of the culture fluid to the user in a sound manner, and can reproduce sound that helps plant growth.

The display 560 may be disposed in one or more of the pedestal 100 and the column 200 and may display information about the state of the culture fluid.

The process by which the light emitting unit 220, the speaker 240 and the display 560 transmit information on the state of the culture liquid to the user will be described later with reference to FIG.

3 is a perspective view illustrating that the rearing unit 300 is fastened to the column 200 in the multi-stage plant grower 1 according to an embodiment of the present disclosure.

4 is a side view showing a state where the rearing unit 300 is fastened to the column 200 in the multi-stage plant grower 1 according to the embodiment of the present disclosure.

3 to 4 show a column portion 200 for allowing the redering portion 300 to rotate about the column portion 200 and to change the order in which the plurality of redering portions 300 are fastened to the column portion 200, 3 and 4, the structure and the shape of the columnar part 200 and the redering part 300 are not limited to those shown in FIGS. It should not be.

3 to 4, the column 200 may include a column support portion 206 and a column rotation portion 208, and the reaming portion 300 may include a column fastening portion 303.

Referring to FIG. 3, the column support portion 206 may be fixed to the support portion 100. The column support portion 206 may penetrate the plurality of column rotation portions 208 and the plurality of column rotation portions 208 may be rotatably connected to the column support portion 206 around the column support portion 206.

4, the column rotation unit 208 can be fastened to the column fastening unit 303 included in the reaming unit 300 using fastening means such as bolts 308 and pins (not shown) The reaming section 300 may be fixed to the column rotation section 208. [ Therefore, when the columnar rotatable portion 208 rotates around the columnar support portion 206, the redering portion 300 rotates together with the columnar rotary portion 208 around the columnar support portion 206.

Referring again to FIG. 3, a nutrient solution supply hole 202 may be formed on a side surface of the column support portion 206. The nutrient solution supply holes 202 are formed between the plurality of cultivation portions 300 and the plurality of cultivation portions 300 are fixed to the column rotation portions 208. Therefore, .

That is, the nutrient solution supply hole 202 may be formed on the side of the column support portion 206 where the columnar rotation portion 208 is not connected. When the reaming section 300 is separated from the column section 200 through the pillar through hole 310 in order to change the order in which the redering section 300 is fastened to the column section 200, The nutrient solution supply unit 204 can be prevented from being caught.

5 is a block diagram of a multi-stage plant grower 1 including a measurement unit 520, a control unit 540, a nutrient solution supply unit 204 and a nutrient solution storage unit 400 according to an embodiment of the present disclosure.

The measuring unit 520 measures at least one of the component concentration of the culture liquid, the acidity of the culture liquid, and the electrical conductivity of the culture liquid to obtain the measurement information 12 of the culture liquid.

The measuring unit 520 may be a method of directly obtaining the measurement information 12 of the culture liquid by being positioned on the rearing unit 300. However, the measuring unit 520 may extract a part of the culture liquid while being located outside the rearing unit 300, ), And the measurement information 12 of the culture liquid is obtained from the extraction culture liquid 10.

The multi-stage plant grower 1 may include a nutrient solution extracting unit (not shown) when the measuring unit 520 obtains the measurement information 12 through the extracted culture solution 10. [ Both ends of the nutrient solution extracting unit may be connected to the culture solution contained in the rearing unit 300 and the measuring unit 520, respectively.

The nutrient solution extracting unit (not shown) may extract the culture liquid contained in the cultivation unit 300 to obtain the extracted culture liquid 10 and deliver the extracted culture liquid 10 to the measuring unit 520. The nutrient solution extracting unit may include a nutrient extraction pump (not shown) for extracting the extract culture solution 10. [

The control unit 540 receives the measurement information 12 from the measuring unit 520 and generates the nutrient supply signal 22 based on the measurement information 12. The nutrient solution supply signal (22) is transmitted to the nutrient solution supply pump (207) contained in the nutrient solution supply unit (204).

2 and 5, the nutrient solution supply pump 207 receives the nutrient solution supply signal 22 from the control unit 540 and receives the nutrient solution supply signal 22 from the nutrient solution reservoir 400 based on the nutrient solution supply signal 22 32). The culture liquid constituent material 32 supplied to the nutrient solution supply unit 204 is transferred to the plurality of cultivation units 300 by using the nutrient solution supply hose 205. Thus, the culture liquid contained in the cultivation unit 300 can maintain a proper state for plant cultivation.

For example, depending on the change of the external temperature and humidity, the culture liquid may evaporate or water vapor may be condensed in the culture liquid, and the plant cultivated on the cultivation unit 300 may absorb the substance in the culture liquid through the roots . Accordingly, the components of the culture liquid and the composition ratios of the respective components can be continuously changed. Therefore, it is necessary to keep the culture medium in a proper state for plant cultivation while the plant grows.

The control unit 540 receives the measurement information 12 of the culture liquid from the measurement unit 520 and compares the value of the measurement information 12 with the set value (not shown). The set value means the composition of the culture liquid and the composition ratio of each ingredient desired to be contained in the culture liquid.

The value of the culture liquid component and composition ratio of each component included in the set value may be directly input by the user, but it may be the one based on the database included in the controller 540. [ The database included in the control unit 540 may be a collection of the components of the culture liquid and the constituent ratios of the various kinds of plants required for cultivation of the plants.

When the value of the measurement information 12 is larger than the set value, the control unit 540 may generate the nutrient solution supply signal 22 indicating that the amount of the specific component of the culture solution is large and transmit it to the nutrient solution supply pump 207. The nutrient solution supply pump 207 receiving the nutrient solution supply signal 22 collects the culture solution in the cultivation unit 300 into the nutrient solution storage unit 400 to sterilize the collected solution and mix the sterilized solution with the raw water The culture can be diluted. The nutrient solution supply pump 207 can supply the diluted culture solution to the cultivation unit 300 again.

The control unit 540 notifies the nutrient supply signal 22 that the amount of the specific component of the culture liquid is insufficient even when the value of the measurement information 12 is larger than the set value, And feeds it to the nutrient solution supply pump 207. The nutrient solution supply pump 207 that has received the nutrient solution supply signal 22 receives the lacking nutrient solution constituent material 32 from the nutrient solution reservoir 400 and delivers the delivered nutrient solution constituent 32 to the grower 300 .

If only the raw water is supplied to the cultivation unit 300 and no component other than the raw water is included in the culture liquid, the measurement unit 520 generates measurement information 12 containing only raw water in the cultivation unit 300, 540). Since the culture liquid contains no components other than the raw water, the control unit 540 can generate the nutrient solution supply signal 22 according to the set value and transmit it to the nutrient solution supply pump 207.

The nutrient solution supply pump 207 that has received the nutrient solution supply signal 22 can receive the nutrient solution constituent 32 from the nutrient solution storage unit 400 as it is and supply it to the rearing unit 300 as it is. Therefore, even a person who lacks knowledge of plant cultivation can easily produce a culture liquid by using the value included in the database of the control unit 540 as a set value.

6 is a block diagram of a multi-stage plant grower 1 including a measurement unit 520, a control unit 540, a light emitting unit 220, a speaker 240 and a display 560 according to an embodiment of the present disclosure .

The measuring unit 520 can extract the extracted culture liquid 10 from the culture liquid contained in the cultivation unit 300 and generate the measurement information 12 of the culture liquid based on the extracted culture liquid 10, (12) to the control unit (540).

The control unit 540 receives the measurement information 12 of the culture liquid and can generate at least one of the lighting signal 24, the reproduction signal 26 and the video signal 28 based on the measurement information 12. [ The generated lighting signal 24, reproduction signal 26 and video signal 28 can be transmitted to the light emitting unit 220, the speaker 240 and the display 560, respectively.

The light emitting unit 220 receives the light signal 24 generated based on the measurement information 12 from the control unit 540 and can light based on the light signal 24. For example, when the value of the measurement information 12 of the culture medium is compared with the set value and the difference is greater than a predetermined range, the light emitting unit 220 may be turned on.

The light emitting unit 220 may be turned on in a different color according to the difference between the value of the measurement information 12 of the culture liquid and the set value. Further, when it is necessary to dilute the culture liquid because the amount of the specific component of the culture liquid is large, the light emitting unit 220 may be turned on while the raw water is replenished in the culture liquid.

The speaker 240 receives the reproduction signal 26 generated based on the measurement information 12 from the control unit 540 and audibly provides information on the amount of the measurement component based on the reproduction signal 26 .

For example, when the value of the measurement information 12 of the culture medium is compared with the set value and the difference is larger than a predetermined range, the speaker 240 may sound a warning sound. Also, the speaker 240 can transmit a message to the user that the specific component of the culture liquid is high or low based on the measurement information 12 of the culture liquid through the voice.

The display 560 may be formed on at least one of the support portion 100 and the pillar portion 200. The control unit 540 receives the video signal 28 generated based on the measurement information 12 and can display information about the amount of the measurement component based on the video signal 28. [

For example, the display 560 simultaneously displays the value of the culture medium measurement information 12, the set value, and the difference value of the two values on the screen, and informs the user of information about which component of the culture fluid needs to be supplemented or diluted .

7 is a block diagram of a multi-stage plant grower 1 including a measurement unit 520, a control unit 540, and a communication unit 580 according to an embodiment of the present disclosure.

The measuring unit 520 can transmit the measurement information 12 of the culture liquid generated based on the extracted culture liquid 10 to the control unit 540. [ The control unit 540 may generate the communication signal 29 based on the transmitted measurement information 12 and may transmit the generated communication signal 29 to the communication unit 580. [

The communication unit 580 receives the communication signal 29 generated based on the measurement information 12 from the control unit 540 and generates the external communication signals 29A and 29B corresponding to the communication signal 29, To the device (50). The communication device 50 may include, but need not be limited to, one or more of the computer 50A and the smart device 50B.

The communication device 50, which has received the communication signal 29, can display information on the amount of the measurement component so that it can convey to the user information as to which component of the culture fluid needs supplementation or dilution.

The communication unit 580 may be connected to the communication device 50 in a wired or wireless manner. When the communication unit 580 and the communication device 50 are wirelessly connected, the communication unit 580 can use a wireless communication scheme such as Bluetooth or Wi-Fi.

The foregoing description is merely illustrative of the technical idea of the present embodiment, and various modifications and changes may be made to those skilled in the art without departing from the essential characteristics of the embodiments. Therefore, the present embodiments are to be construed as illustrative rather than restrictive, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be construed according to the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

100: receiving part 200: column part 204: nutrient solution supply part
220: light emitting portion 240: speaker 300:
400: Nutrient solution storage unit 540: Control unit 560: Display
580:

Claims (8)

A support portion;
A columnar portion fixed to the receiving portion and including a plurality of nutrient solution supply holes on a side surface thereof;
And a plurality of regulating portions including pillar penetration holes through which the pillars penetrate, wherein the regulating portions are disposed between the plurality of nutrient solution supply holes, rotatable about the pillars, and detachable from the pillars through the pillar penetration holes A plurality of dispensing portions;
A nutrient solution reservoir containing at least one culture medium constituent;
A measuring unit for measuring at least one of a component concentration of the culture liquid, an acidity of the culture liquid and an electric conductivity of the culture liquid;
A control unit that receives measurement information from the measurement unit and generates a nutrient solution supply signal based on the measurement information; And
And a nutrient solution supply source for supplying the nutrient solution from the nutrient solution reservoir to the nutrient solution reservoir through the nutrient solution supply hose in accordance with the nutrient solution supply signal, And a plurality of nutrient solution supply units
Wherein the plant-grown plant grows. The method according to claim 1,
Wherein:
A column support fixed to the support portion and including the plurality of nutrient solution supply holes on a side surface thereof; And a columnar rotation part passing through the column support part and rotatably connected to the column support part about the column support part between the plurality of nutrient solution supply holes,
And the regulating portion further includes a column fastening portion fastened to the column rotating portion and fixed to the column rotating portion
Which is characterized in that the plant is a plant. The method according to claim 1,
Wherein the plurality of regrowth units have a circular shape
Which is characterized in that the plant is a plant. The method according to claim 1,
A light emitting unit that receives a light emitting signal generated based on the measurement information from the control unit,
Further comprising the step of: The method according to claim 1,
A speaker that receives a reproduction signal generated based on the measurement information from the control unit and that provides information about the amount of the measurement component audibly based on the reproduction signal,
Further comprising the step of: 6. The method of claim 5,
The loudspeakers are those that reproduce sounds that aid plant growth
Which is characterized in that the plant is a plant. The method according to claim 1,
A display unit that is formed on at least one of the support unit and the column unit and receives a video signal generated based on the measurement information from the control unit and displays information on the amount of the measurement component based on the video signal,
Further comprising the step of: The method according to claim 1,
A communication unit that receives a communication signal generated based on the measurement information from the control unit and generates an external communication signal corresponding to the communication signal,
Further comprising the step of:

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