KR20220091077A - Hydroponics apparatus - Google Patents

Abstract

Smart farm hydroponic cultivation device according to an embodiment of the present invention, in the smart farm hydroponic cultivation device for growing plants by supplying water and nutrient solution indoors, a frame part supported on the ground to form a certain space, the frame A water tank part having a plurality of accommodating parts equipped with a receiving space for accommodating a liquid therein, a water supply part for supplying water, a nutrient solution supply part for supplying a nutrient solution for plant growth to the water tank part, and the said It is accommodated in the receiving space of the receiving part, and may include a support part to support the hem of the stem of the plant so that the standing of the plant is maintained.

Description

Smart Farm Hydroponics Apparatus

The present invention relates to a smart farm hydroponic cultivation device, and more particularly, to a smart farm hydroponic cultivation device for growing plants by supplying water and nutrient solution indoors.

In general, it was difficult to put a potted plant on the floor or a decorative cabinet to grow a plant, or to put a potted plant in a narrow place. In addition, when a plurality of conventional flowerpots are installed, there is a disadvantage in that the area occupied by the space portion by the flowerpot becomes wider.

Recently, interest in organic crops has increased, and even when it is desired to grow crops indoors for the purpose of stability through plants, it is difficult to implement due to space limitations. As a way to solve this space constraint, a plant wall or wall farm in which pots are installed in a vertical direction near the wall are being developed.

However, there is a disadvantage in that it is difficult to water and manage the vertically arranged multi-tiered pots.

On the other hand, a technology for cultivating plants by automatically watering flowerpots arranged in multiple stages has been developed for hydroponically cultivated plants. Hydroponics is a method of cultivating plants in a state where the roots of plants are directly contained in water, not in soil, and since water is continuously supplied to fill the pot with water, it is easy to grow plants by automatic watering. However, interference with neighboring plants occurs according to the size change according to the growth of the plant, so that the plant growth cannot be performed smoothly, and there is a disadvantage that the light irradiated from one direction does not reach the plants arranged in an overlapping state.

Korean Patent No. 10-1499320

It is an object of the present invention to provide a smart farm hydroponic cultivation device for growing plants indoors by supplying water and nutrient solution.

Smart farm hydroponic cultivation device according to an embodiment of the present invention, in the smart farm hydroponic cultivation device for growing plants by supplying water and nutrient solution indoors, a frame part supported on the ground to form a certain space, the frame A water tank part having a plurality of accommodating parts equipped with a receiving space for accommodating a liquid therein, a water supply part for supplying water, a nutrient solution supply part for supplying a nutrient solution for plant growth to the water tank part, and the said It is accommodated in the receiving space of the accommodating part, and includes a support part for maintaining the standing of the plant by supporting the hem of the stem of the plant, wherein the accommodating part is formed in a cylindrical shape, and the body part forming the accommodating space and the upper surface of the main body part A plurality of penetrating portions penetrating through the receiving space to communicate with the outside to provide a space in which the stem of a plant is located, and the support portion, at least a portion of which is exposed through the penetrating portion, may spray water upward.

The support part of the smart farm hydroponics apparatus according to an embodiment of the present invention provides a space into which the stem of the plant is inserted, and forms a first internal conduit through which a liquid flows therein, and on the lower side of the penetration part A plurality of inserts disposed, while being disposed in the receiving space, mediating the plurality of inserts, through which a second inner conduit communicating with the first inner conduit is formed, and an upper surface of the inserting portion penetratingly formed, A liquid ejection unit for ejecting a liquid upward may be provided, and the liquid ejection unit may provide a passage through which the liquid remaining in the second inner tube is discharged to the outside via the first inner tube.

The water supply unit of the smart farm hydroponics apparatus according to an embodiment of the present invention includes a first water supply piece for supplying water to the water tank and a second water supply piece for supplying water to the support unit, It is mounted on the frame, and further comprises a temperature measuring unit for measuring the ambient temperature of the frame unit, and a control unit for controlling the second water supply piece according to the temperature value measured by the temperature measuring unit, wherein the liquid injection unit , when the water pressure of the water staying in the second internal pipe is greater than the first water pressure, the water staying in the second internal pipe is sprayed upward, and the control unit is the temperature value measured by the temperature measuring unit. When it is higher than the first temperature, the second water supply piece may be controlled so that the water pressure in the second inner pipe is greater than the first water pressure.

The frame part of the smart farm hydroponics apparatus according to an embodiment of the present invention, while seated on the ground, a first standing part to stand, while being spaced apart from the first standing part, a second standing part to stand up and and a connecting portion connecting the first standing portion and the second standing portion, wherein the first standing portion includes a 1-1 standing piece and a 1-2 standing piece that are spaced apart from each other, and the second standing portion , composed of a 2-1 standing piece and a 2-2 standing piece that are spaced apart, and the connection part connects the 1-1 standing piece and the 1-2 standing piece, and has a first height from the ground. The first 1-1 connecting piece, the 1-1 rising piece, and the 1-2 standing piece are connected, and the 1-2 connecting piece disposed at a second height higher than the first height from the ground. The 1-3 connecting piece, the 2-1 standing piece, and the 2-2 connecting piece connecting the 1-1 standing piece and the 1-2 standing piece, and disposed at a third height higher than the second height from the ground A second connecting piece connecting the standing pieces, a 2-1 connecting piece disposed at a first height from the ground, the 2-1 standing piece, and the 2-2 standing piece connecting the second standing piece, and disposed at the second height from the ground -2 connecting piece, connecting the 2-1 standing piece, and the 2-2 standing piece, and having a 2-3 connecting piece disposed at the third height from the ground, wherein the accommodating part is at the first height It may include a first accommodating piece disposed at, a second accommodating piece disposed at the second height, and a third accommodating piece disposed at the third height.

The connection part of the smart farm hydroponics apparatus according to an embodiment of the present invention, while being connected to the 1-1 connection piece, the first 1-1 position moving part, the first While connected to the 1-2 connecting piece, the 1-2 first position moving part moved outwardly from the 1-2 connecting piece, while connected to the 2-1 connecting piece, the position moved outward from the 2-1 connecting piece A 2-1 th position shifting part and a 2-2 th position shifting part that is moved outwardly from the 2-2 connection piece, while being connected to the 2-2 connection piece, the first receiving piece, one side The second accommodating piece is connected to the 1-1 position moving unit, the other end is connected to the 2-1 position moving unit, one side is connected to the 1-2 position moving unit, and the other end is connected to the second- 2 is connected to the position moving unit, and the 1-1 position moving unit and the 2-1 position moving unit can be moved in an outward direction, The 1-2 position moving unit and the 2-2 position moving unit in an outward direction It may be longer than the possible moving distance to the position.

The accommodating part of the smart farm hydroponics apparatus according to an embodiment of the present invention passes through the upper surface of the main body part, but is mounted on the body part defining the passing part and the passing part interconnecting the plurality of penetration parts , further comprising a movement limiting unit for determining whether to open or close the passage, the through portion is formed in a circular shape, the passage portion forms a space with a narrower width than the through portion, and may be formed in a straight line.

The intermediate part of the smart farm hydroponics apparatus according to an embodiment of the present invention is deformed by an external force applied over a certain external force and the length is changed, and the plurality of insertion parts, The separation distance is changed according to the change in the length of the intermediate part The plant connected to the insertion part is moved in the longitudinal direction of the main body according to the change in the length of the intermediate part, and from the first penetration part constituting the penetration part to the second penetration part adjacent to the first penetration part. When the position is moved, it may be moved via the passing part.

According to the present invention, it is possible to change the separation distance from the neighboring plants according to the size change according to the growth of the plants, thereby preventing the disturbance of plant growth due to the interference between the neighboring plants.

In addition, by dispersing the overlappingly arranged plants in the height direction, it is possible to smoothly irradiate the light to the plants.

In addition, by allowing the volume occupied by the device to be changed, transport and storage can be facilitated.

1 is a schematic perspective view showing a smart farm hydroponic cultivation device according to an embodiment of the present invention.
Figure 2 (a) is a schematic diagram showing a smart farm hydroponics according to an embodiment of the present invention.
Figure 2 (b) is a schematic diagram for explaining the control unit of the smart farm hydroponics according to an embodiment of the present invention.
Figure 3 is a schematic diagram for explaining the water tank of the smart farm hydroponics apparatus according to an embodiment of the present invention.
4 and 5 are schematic diagrams for explaining the receiving part of the smart farm hydroponic cultivation device according to an embodiment of the present invention.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. However, the spirit of the present invention is not limited to the presented embodiments, and those skilled in the art who understand the spirit of the present invention may add, change, delete, etc. other components within the scope of the same spirit, through addition, change, deletion, etc. Other embodiments included within the scope of the invention may be easily proposed, but this will also be included within the scope of the invention.

In addition, components having the same function within the scope of the same idea shown in the drawings of each embodiment will be described using the same reference numerals.

1 is a schematic perspective view showing a smart farm hydroponic cultivation device according to an embodiment of the present invention, Figure 2 (a) is a schematic schematic diagram showing a smart farm hydroponic cultivation device according to an embodiment of the present invention, Fig. 2 (b) is a schematic diagram for explaining the control unit of the smart farm hydroponics according to an embodiment of the present invention.

In addition, Figure 3 is a schematic diagram for explaining the water tank part of the smart farm hydroponic cultivation apparatus according to an embodiment of the present invention, Figures 4 and 5 describe the receiving part of the smart farm hydroponics apparatus according to an embodiment of the present invention It is a schematic diagram for

1 to 5, the smart farm hydroponic cultivation device 1 (hereinafter the hydroponic cultivation device 1) according to an embodiment of the present invention is a device for cultivating plants by supplying water and nutrient solution indoors. can

The hydroponics apparatus 1 of the present invention includes a frame part 10, a roof part 2, a light irradiation part 3, a water tank part 20, a water supply part 30, a nutrient solution supply part 40 and a support part 50 ) may be included.

The frame part 10 may be supported on the ground to form a predetermined space.

The roof part 2 is formed to cover the upper side of the frame part 10 , and may provide a space in which the light irradiation part 3 is installed.

The light irradiation unit 3 may be installed on the lower side of the roof unit 2 to irradiate light toward the water tank unit 20 on the lower side.

The water tank 20 may include a plurality of accommodating parts having an accommodating space for accommodating the liquid therein, while being mounted on the frame part 10 .

Each accommodating part constituting the plurality of accommodating parts is formed in a cylindrical shape, and penetrates the upper surface of the body part 21 and the body part 21 forming the accommodating space so that the accommodating space and the outside are in communication with the plant. It may include a plurality of through portions 23 providing a space in which the stem is located.

The plurality of through portions 23 are formed by passing through a curved surface defining the circumference of the body portion 21 formed in a cylindrical shape.

The water supply unit 30 may supply water. The water supply unit 30 may supply water to each of the plurality of accommodation units through a pipe in the standing unit constituting the frame unit 10 .

The nutrient solution supply unit 40 may supply a nutrient solution for plant growth to the water tank unit 20 . The nutrient solution supply unit 40 may be supplied to each of the plurality of accommodation units through a pipe in the standing unit, and the pipe in the standing unit may be connected to the water supply unit 30 and the nutrient solution supply unit 40. .

The support unit 50 may be accommodated in the receiving space of the receiving unit, and may support the lower end of the stem of the plant so that the standing of the plant is maintained.

The support part 50 may be formed of an elastically deformable material that is deformed by an external force equal to or greater than a certain external force, and maintains its shape when no external force is applied.

Accordingly, the user may deform the standing portion according to the size and shape of the plant so that the standing is maintained while supporting the hem of the stem of the plant.

At least a portion of the support part 50 may be exposed through the through part 23 to spray water upward. The support part 50 may be disposed along the longitudinal direction of the body part 21 while being accommodated in the accommodation space.

The support part 50 may include a plurality of insertion parts 51 , an intermediate part 53 , and a liquid injection part 55 .

The plurality of insertion parts 51 may provide a space into which the lower end of the stem of the plant is inserted, form a first internal conduit through which a liquid flows therein, and may be disposed on the lower side of the penetration part 23 . . Specifically, the plurality of insertion portions 51 may be formed in a ring shape to surround the lower end of the stem of the plant.

The intermediate part 53 may be disposed in the receiving space, and a second internal pipe may be formed to mediate the plurality of insertion parts 51 and communicate with the first internal pipe.

The liquid ejection part 55 may be formed through the upper surface of the inserting part 51 to eject the liquid upward.

The liquid ejection unit 55 may provide a passage through which the liquid remaining in the second inner tube is discharged to the outside via the first inner tube.

The water discharged by the liquid spraying unit 55 may be sprayed inside covered by the leaves of the plant.

Meanwhile, the water supply unit 30 includes a first water supply piece 31 for supplying water to the water tank unit 20 and a second water supply piece 32 for supplying water to the support unit 50 . can do.

In addition, the hydroponics apparatus 1 of the present invention is mounted on the frame portion 10, and the temperature measurement unit 60 and the temperature measurement unit 60 for measuring the ambient temperature of the frame portion 10 It may further include a control unit 70 for controlling the second water supply piece 32 according to the temperature value measured by .

The liquid ejection unit 55 may cause the water staying in the second internal pipe to be sprayed upward when the water pressure of the water staying in the second internal pipe is greater than the first hydraulic pressure.

The control unit 70, when the temperature value measured by the temperature measuring unit 60 is higher than the first temperature, the second water supply piece ( 32) can be controlled.

This is to lower the temperature of the space in which the plant is grown, and the water sprayed from the liquid spray unit 55 may be used to lower the temperature by taking heat from the plant or surroundings while vaporizing on the surface of the plant. .

In addition, water may be sprayed through the liquid spray unit 55 in order to adjust the humidity favorable for growth according to the plant being grown. To this end, the hydroponics apparatus 1 may further include a humidity measurement unit for measuring the ambient humidity, and to control the second water supply piece 32 according to the humidity value measured by the humidity measurement unit. may be By controlling humidity, it is possible to prevent diseases and pests of plants caused by drying.

In addition, the water sprayed through the liquid spray unit 55 removes dust/foreign substances settled on the stem or leaf of the plant, so that photosynthesis of the plant can be smoothly implemented.

The accommodating part passes through the upper surface of the body part 21, and while being mounted on the body part 21 defining the passing part and the passing part interconnecting the plurality of through parts 23, the passing part It may further include a movement limiting unit 25 for determining whether to open or close the unit.

The through portion 23 is formed in a circular shape, and the passage portion forms a space having a width narrower than that of the through portion 23 and may be formed in a straight shape.

The intermediate part 53 may be deformed by an external force applied above a certain external force, and the length may be changed.

The separation distance of the plurality of insertion parts 51 may be changed according to a change in the length of the intermediate part 53 .

The plant connected to the insertion part 51 is moved in the longitudinal direction of the body part 21 according to the change in the length of the intermediate part 53 , and a first penetration part constituting the penetration part 23 ( When the position is moved from 231 ) to the second through portion 232 adjacent to the first through portion 231 , it may be moved via the passing portion.

This makes it possible for the plants in the hydroponic cultivation device 1 to be placed, so that growth is prevented by interference with neighboring plants according to growth, or efficient photosynthesis by overlapping leaves is prevented. In order to be able to adjust the separation distance.

On the other hand, the frame portion 10 of the hydroponics apparatus 1 according to an embodiment of the present invention, while seated on the ground, the first standing portion 11 to stand up, the first standing portion 11 and spaced apart It may be provided with a second standing portion 12 to stand up while being disposed, and a connection portion connecting the first standing portion 11 and the second standing portion 12 .

The first standing portion 11 may include a 1-1 standing piece 11-1 and a 1-2 standing piece 11-2 that are spaced apart from each other.

The second standing portion 12 may include a 2-1 th standing piece 12-1 and a 2-2 standing piece 12-2 disposed to be spaced apart from each other.

The connection part includes a 1-1 connection piece 151a, a 1-2 connection piece 151b, a 1-3 connection piece 151c, a 2-1 connection piece 152a, a 2-2 connection piece 152b, and a second connection piece 152b. 2-3 connecting pieces 152c may be provided.

The 1-1 connecting piece 151a connects the 1-1 standing piece 11-1 and the 1-2 standing piece 11-2, and may be disposed at a first height from the ground. .

The 1-2 connecting piece 151b connects the 1-1 standing piece 11-1 and the 1-2 standing piece 11-2, and is a second connecting piece that is higher than the first height from the ground. It can be placed at a height.

The 1-3 connecting piece 151c connects the 1-1 standing piece 11-1 and the 1-2 standing piece 11-2, and is a third connecting piece higher than the second height from the ground. It can be placed at a height.

The 2-1 th connection piece 152a connects the 2-1 th standing piece 12-1 and the 2-2 th standing piece 12-2, and may be disposed at a first height from the ground. .

The 2-2 connecting piece 152b may connect the 2-1-th standing piece 12-1 and the 2-2 standing-up piece 12-2, and may be disposed at the second height from the ground. have.

The 2-3rd connecting piece 152c connects the 2-1th standing piece 12-1 and the 2-2nd standing piece 12-2, and may be disposed at the third height from the ground. have.

The accommodating part includes a first accommodating piece 20a disposed at the first height, a second accommodating piece 20b disposed at the second height, and a third accommodating piece 20c disposed at the third height. can do.

In addition, the connection unit may further include a 1-1 position shifting unit (153a), a 1-2 position shifting unit (153b), a 2-1 position shifting unit and a 2-2 position shifting unit.

The 1-1 position moving part 153a may be moved outwardly from the 1-1 connection piece 151a while being connected to the 1-1 connection piece 151a.

The 1-2 position moving part 153b may be moved outwardly from the 1-2 connection piece 151b while being connected to the 1-2 connection piece 151b.

The 2-1 position moving part may be moved outwardly from the 2-1 connection piece 152a while being connected to the 2-1 connection piece 152a.

The 2-2 position moving part may be moved outwardly from the 2-2 connection piece 152b while being connected to the 2-2 connection piece 152b.

The first accommodating piece 20a may have one side connected to the 1-1 position moving unit 153a, and the other end connected to the 2-1 position moving unit.

The second accommodating piece 20b may have one side connected to the 1-2 position moving part 153b, and the other end connected to the 2-2 position moving part.

The 1-1 position moving part (153a) and the 2-1 position moving part in an outwardly movable distance are in the outward direction of the 1-2 position moving part (153b) and the 2-2 position moving part may be longer than the movable distance of the position of

Accordingly, the first accommodating piece 20a located at the lowermost side can be disposed without overlapping with the second accommodating piece 20b in the height direction, and the second accommodating piece 20b is the third accommodating piece It may be possible to arrange without overlapping with (20c) in the height direction.

In other words, the third accommodating piece 20c, the second accommodating piece 20b and the first accommodating piece 20a may be arranged in a stepwise manner, which is caused by the light irradiator 3 irradiating light from the upper side. This is to allow light to reach all of the first accommodating piece 20a, the second accommodating piece 20b, and the third accommodating piece 20c.

If the first accommodating piece 20a, the second accommodating piece 20b, and the third accommodating piece 20c are disposed to overlap in the height direction, the plant of the first receiving piece 20a located at the lowermost side is the It may be difficult to receive light by the light irradiation unit 3, but in the present invention, in order to solve this problem, the first accommodating piece 20a, the second accommodating piece 20b and the third accommodating piece 20c are stepped. can be arranged as

In addition, the 1-1 position moving unit 153a and the 2-1 position moving unit are moved inward, and the 1-2 position moving unit 153b and the 2-2 position moving unit are moved inwardly. If you do, the first accommodation piece (20a) and the second accommodation piece (20b) are arranged overlapping in the height direction, but by reducing the space occupied by the hydroponic apparatus (1), the movement or storage of the hydroponic apparatus (1) is can make it easy.

In the above, the configuration and features of the present invention have been described based on the embodiments according to the present invention, but the present invention is not limited thereto, and it is understood that various changes or modifications can be made within the spirit and scope of the present invention. It is intended that such changes or modifications will be apparent to those skilled in the art, and therefore fall within the scope of the appended claims.

1: Smart farm hydroponics
2: Loop part
3: light irradiation unit
10: frame part
20: water tank
30: water supply
40: nutrient solution supply unit
50: support
60: temperature measurement unit
70: control unit

Claims (5)

In the smart farm hydroponic cultivation device for growing plants by supplying water and nutrient solution indoors,
a frame part supported on the ground to form a predetermined space;
a water tank part having a plurality of accommodating parts mounted on the frame part and having an accommodating space for accommodating a liquid therein;
a water supply unit for supplying water;
a nutrient solution supply unit for supplying a nutrient solution for plant growth to the water tank; and
It includes a; is accommodated in the receiving space of the receiving unit, and supports the stem of the plant to maintain the standing of the plant;
The receiving unit,
It is formed in a cylindrical shape and includes a body portion forming an accommodation space and a plurality of penetrating portions penetrating an upper surface of the main body portion so that the accommodation space and the outside communicate with each other to provide a space in which the stem of a plant is located,
The support part,
At least a portion of the smart farm hydroponic cultivation device, characterized in that for spraying water to the upper side exposed to the through portion.
According to claim 1,
The support part,
A plurality of insertion parts that provide a space into which the lower end of the stem of the plant is inserted, form a first internal conduit through which a liquid flows therein, and are disposed on the lower side of the penetrating part;
An intermediate portion that is disposed in the receiving space, which mediates the plurality of insertion portions, and is formed with a second inner conduit communicating with the first inner conduit; and
It is formed through the upper surface of the insertion part and includes a liquid ejection part for spraying the liquid to the upper side,
The liquid injection unit,
Via the first inner conduit, providing a passage through which the liquid staying in the second inner conduit is discharged to the outside,
The water supply unit,
A first water supply piece for supplying water to the water tank unit and a second water supply piece for supplying water to the support unit,
a temperature measuring unit for measuring an ambient temperature of the frame unit while being mounted on the frame unit; and
Further comprising; a control unit for controlling the second water supply piece according to the temperature value measured by the temperature measuring unit;
The liquid injection unit,
When the water pressure of the water staying in the second internal pipe is greater than the first water pressure, the water staying in the second internal pipe is sprayed upward,
The control unit is
When the temperature value measured by the temperature measuring unit is higher than the first temperature, smart farm hydroponics, characterized in that by controlling the second water supply piece so that the water pressure of the second inner pipe is greater than the first water pressure Device.
3. The method of claim 2,
The frame part,
A first standing part to stand while seated on the ground, a second standing part to stand while being spaced apart from the first standing part, and a connection part for connecting the first standing part and the second standing part,
The first standing unit,
Consists of a 1-1 standing piece and a 1-2 standing piece that are spaced apart,
The second standing unit,
It consists of a 2-1 standing piece and a 2-2 standing piece that are spaced apart,
The connection part,
The 1-1 standing piece and the 1-2 standing piece are connected, and the 1-1 connecting piece, the 1-1 standing piece, and the 1-2 standing piece arranged at a first height from the ground are connected. and a 1-2 connecting piece disposed at a second height higher than the first height from the ground, connecting the 1-1 standing piece, and the 1-2 standing piece, and connecting a second height higher than the second height from the ground The 1-3 connecting piece, the 2-1 standing piece, and the 2-2 standing piece are connected to each other, and the 2-1 connecting piece and the 2-1 standing piece are arranged at a first height from the ground. Connecting the piece and the 2-2 standing piece, connecting the 2-2 connecting piece, the 2-1 standing piece, and the 2-2 standing piece disposed at the second height from the ground, and connecting the 2-2 standing piece from the ground and a 2-3 connecting piece disposed at a third height,
The receiving unit,
a first receiving piece disposed at the first height;
a second accommodating piece disposed at the second height; and
and a third accommodating piece disposed at the third height,
The connection part,
While connected to the 1-1 connecting piece, a 1-1 position moving part that is moved outwardly from the 1-1 connecting piece, while connected to the 1-2 connecting piece, outwardly from the 1-2 connecting piece The position-moved 1-2 position-moving part, while connected to the 2-1 connection piece, and connected to the 2-1 position-moving part and the 2-2 connection piece, which are positionally moved outward from the 2-1 connection piece, and a 2-2 position moving part that is moved outwardly from the 2-2 connection piece,
The first receiving piece,
One side is connected to the 1-1 position moving unit, the other side is connected to the 2-1 position moving unit,
The second receiving piece,
One side is connected to the 1-2 position moving unit, the other side is connected to the 2-2 position moving unit,
The 1-1 position shifting unit and the 2-1 position shifting part are movable distances in an outward direction,
Smart farm hydroponic cultivation device, characterized in that longer than the movable distance in the outward direction of the 1-2 position moving part and the 2-2 position moving part.
3. The method of claim 2,
The receiving unit,
It penetrates through the upper surface of the main body, and further comprising a passage for interconnecting the plurality of through portions and a movement limiter for determining whether to open or close the passage while being mounted on the body portion defining the passage,
The penetrating portion is formed in a circular shape,
The passage portion, a smart farm hydroponics apparatus, characterized in that it forms a space with a narrower width than the passage portion, and is formed in a straight line.
5. The method of claim 4,
The mediator is
It is deformed by an external force applied over a certain external force and the length is changed,
The plurality of inserts,
The separation distance is changed according to the change in the length of the intermediate part,
Plants connected to the insert,
The position is moved in the longitudinal direction of the main body according to the change in the length of the intermediate part, and when the position moves from the first penetrating part constituting the penetrating part to the second penetrating part adjacent to the first penetrating part, it moves via the passing part. Smart farm hydroponics, characterized in that it becomes.

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