KR20190081515A - Farming apparatus - Google Patents

Abstract

The present invention relates to a plant cultivation apparatus, and more particularly, to a plant cultivation apparatus capable of cultivating ornamental plants, vegetables and the like in an indoor environment.
The present invention provides a method of manufacturing a plant, comprising: a housing (100) having a rectangular parallelepiped shape and isolated from the outside and forming a plant growth space (S); A vegetation part 200 installed below the growth space S and planting plants; An illumination unit 300 installed on the upper side of the growth space S and performing illumination to form a plant growth environment in the vegetation unit 200; And an air spray part (400) installed on at least one of a pair of outer walls (110) facing each other to spray air toward a plant planted in the vegetation part (200), and the vegetation part (200) , And a plant container (231) located on the inner side with respect to the front of the housing (100) is the highest and is installed lower toward the front side.

Description

[0001]

The present invention relates to a plant cultivation apparatus, and more particularly, to a plant cultivation apparatus capable of cultivating ornamental plants, vegetables and the like in an indoor environment.

A plant cultivation device refers to a device that can be easily installed in ornamental plants, vegetables,

Especially, the plant cultivation apparatus has recently been in the spotlight in response to various purposes such as demands for a well-being diet, diversification of indoor environment, and air purification.

However, since the plant cultivation apparatus must provide a plant growth environment in a limited space, it can not provide optimal growth conditions due to various constraint requirements.

SUMMARY OF THE INVENTION It is an object of the present invention to recognize the above trends and problems, and to provide a plant structure in which plants are planted in a higher position in a backward direction when viewed from the front, And to provide a plant cultivation apparatus having a plant.

The present invention has been made in order to achieve the above-mentioned object of the present invention. The present invention provides a method of manufacturing a plant, comprising: a housing (100) having a rectangular parallelepiped shape and being isolated from the outside and forming a plant growth space (S); A vegetation part 200 installed below the growth space S and planting plants; An illumination unit 300 installed on the upper side of the growth space S and performing illumination to form a plant growth environment in the vegetation unit 200; And an air spray part (400) installed on at least one of a pair of outer walls (110) facing each other to spray air toward a plant planted in the vegetation part (200), and the vegetation part (200) , And a plant container (231) located on the inner side with respect to the front of the housing (100) is the highest and is installed lower toward the front side.

A nutrient solution container 210 having an upper side opened and containing a nutrient solution for growing a plant; and at least one opening 221 for inserting and installing a plant container 231, The plant cover 231 located on the inner side with respect to the front of the housing 100 is the highest and can be installed lower toward the front side of the housing 100 have.

The nutrient container portion 210 is slidably coupled to the housing 100 and a guide block 211 is provided on both side surfaces of the nutrient container portion 210 so as to be slidable along the guide rails 153 provided inside the housing 100, Can be installed.

The guide block 211 may be installed on both sides of the nutrient container portion 210 so as to be slidable along the guide rails 153 provided in the housing 100.

The guide block 211 is detachably installed on both sides of the nutrient container portion 210 and is disposed in the nutrient container portion 210 so as to adjust the installation height of the nutrient container portion 210 in the housing 100. [ So that the installation height on both side surfaces of the main body can be varied.

The guide block 211 is fitted into the plurality of coupling grooves 212 formed on both sides of the nutrient container portion 210 in a vertically multi-stage manner so that the installation height at both sides of the nutrient container portion 210 is Can be varied.

The nutrient part 230 is provided at the uppermost part of the innermost part of the cover 220 so that the nutrient vessel part 210 is positioned at the upper part of the housing 100 In the backward direction.

The plant grower according to the present invention is formed in a pair of outer walls 110 facing each other and air in the growth space S is discharged to the outside so that air injection by the air spraying part 400 is smooth And may include at least a part of the air discharge passage 510 and a handle 500 formed to be user-accessible.

The illumination unit 300 includes a plurality of LED elements 310; An LED substrate 320 provided with the plurality of LED elements 310; And a heat dissipating member 330 coupled to a back surface of the LED substrate 320 to dissipate heat generated from the LEDs 310. The heat dissipating member 330 is disposed on the air exhausting path 510, As shown in FIG.

The handle 500 may be recessed from the outer surfaces of the pair of opposite outer walls 110 to form at least a part of the air discharge passage 510.

The air injecting unit 400 is installed inside the air inlet 410 formed in the pair of outer walls 110 facing each other and sucks air through the air inlet 410 to generate the growth space S An air flow forming part 420 for forming an air flow to the first and second end portions of the air flow path; And an air injection path 430 passing through the air inlet 410 and the air flow forming part 420.

The housing 100 is provided at an inner space with a gap between the pair of outer walls 110 facing each other and has an air injection hole 151 through which air injected by the air flow forming part 420 is injected The air flow forming part 410 may be installed between the outer wall 110 and the inner housing 150. The inner housing 150 may include a pair of inner housings 150 formed thereon.

The air injection port 151 may be formed straight from the front to the rear of the housing 100.

The air injector (400) includes an air pump (450) for supplying compressed air; And a spray nozzle unit installed on the pair of outer walls 110 facing each other and spraying air toward plants planted in the vegetation unit 200.

The air injection pressure through the injection nozzle unit can be increased or decreased.

The plant cultivation apparatus according to the present invention is advantageous in that the planting vessel in which the plants are planted while being rearward viewed from the front in the structure of the vegetation part is disposed higher, thereby improving the optimum growth condition and the cornucopia effect.

In addition, the plant cultivation apparatus according to the present invention has an advantage that an optimal vegetation environment can be formed together with lighting by appropriately spraying air to plants planted inside.

In particular, in the plant cultivation apparatus according to the present invention, in order to induce smooth air inflow into the vegetation space, in forming an air discharge channel through which the inside air is discharged to the outside, The structure of the apparatus is simple and the manufacturing cost can be reduced.

In addition, the plant cultivating apparatus according to the present invention has an advantage that the radiation effect of the radiation member constituting the illumination can be maximized by providing the radiation member of the illumination on the air discharge flow path through which the air is discharged to the outside.

1 is a perspective view showing an example of a plant cultivation apparatus according to the present invention.
Fig. 2 is an exploded perspective view of the plant cultivation apparatus of Fig. 1; Fig.
Fig. 3 is a side view of the vegetation section of the plant cultivation apparatus of Fig. 1; Fig.
4 is a cross-sectional view taken along the line IV-IV in Fig.
Fig. 5 is an enlarged cross-sectional view of the portion A in Fig. 4 enlarged.
6 is a cross-sectional view in the VI-VI direction in FIG.
Fig. 7 is a perspective view of a vegetation part of the plant cultivation apparatus of Fig. 1; Fig.
Fig. 8 is a perspective view showing an example of a container auxiliary support portion of the vegetation part of the plant cultivation apparatus of Fig. 1;

Hereinafter, a plant cultivation apparatus according to the present invention will be described with reference to the accompanying drawings.

1 to 8, a plant cultivation apparatus according to the present invention includes a housing 100 having a rectangular parallelepiped shape and being isolated from the outside and forming a plant growth space S; A vegetation part 200 provided under the growth space S and planted with plants; And an illumination unit 300 installed on the upper side of the growth space S and performing illumination to form a plant growth environment in the vegetation unit 200.

The housing 100 has a rectangular parallelepiped shape, is isolated from the outside, and has a variety of configurations as a structure for forming a growth space S of a plant.

For example, the housing 100 may be provided with a door 190 at the front for introducing and discharging the vegetation part 200 described later.

The door part 190 is provided for introducing and discharging the vegetation part 200. The door part 190 can be configured in various ways according to the opening and closing method of the door part 190, It is preferable to have a transparent material.

Meanwhile, the housing 100 may be wholly or partly made of a transparent material so as to facilitate the observation of the outside from the outside, in addition to the structure of the door portion 190.

The housing 100 may include a pair of outer walls 110 opposed to each other so that an air injection unit 400 or the like described later may be installed.

The outer wall 110 may have a variety of configurations as opposed to each other so that an air injection unit 400 or the like to be described later may be installed.

The housing 100 may further include a pair of inner housings 150 spaced apart from the pair of outer walls 110 opposite to each other.

The inner housing 150 may be configured to be spaced apart from the outer wall 110 so that an air flow forming part 420 described later may be installed in a space formed between the outer wall 110 and the inner housing 150.

At this time, the inner housing 150 may have an air injection hole 151 through which air to be injected by the air flow forming part 420, which will be described later, is injected.

The vegetation part 200 is arranged under the growth space S and is planted with plants, and can have various configurations according to the planting structure of the plant.

As shown in FIGS. 1 and 2, the vegetation part 200 includes a nutrient solution vessel 210 having an upper opening and containing nutrient solution for plant growth, And a cover 220 having at least one opening 221 formed therein for inserting a plant container 231 planted with the plant.

The nutrient container portion 210 can be variously configured as a structure in which the upper side is opened and the nutrient solution is contained.

Specifically, it is preferable that the nutrient container portion 210 is formed so that the entire shape of the nutrient container portion 210 has a rectangular parallelepiped shape, considering that the entire shape of the nutrient container portion 210 is provided inside the housing 100 having a rectangular parallelepiped shape.

The nutrient container portion 210 may contain a nutrient solution having a predetermined composition in consideration of the growth of the cultivated plant.

Meanwhile, it is preferable that the nutrient container portion 210 is made to slide with respect to the housing 100.

That is, the nutrient container portion 210 may be provided with a guide block 211 on both side ends thereof so as to be slidable along the guide rails 153 provided inside the housing 100.

The guide block 211 may be installed on both sides of the nutrient container portion 210 so as to be slidable along the guide rails 153 provided in the housing 100.

Particularly, the guide rails 153 may be installed on both sides of the nutrient container portion 210 so as to be moved along the pair of guide rails 153 have.

Meanwhile, the nutrient container portion 210 is installed to support the plant container 231 together with a cover 220 described later. The nutrient container portion 210 is provided with the nutrient container portion 210, It is preferable that the installation height in the growth space S is adjusted.

The guide block 211 may be detachably installed on both sides of the nutrient container portion 210 and may include a nutrient container portion 210 for adjusting the installation height of the nutrient container portion 210 in the housing 100, Can be configured to be variable in height.

For example, the guide block 211 is vertically movable along guide grooves (not shown) formed on both sides of the nutrient container portion 210 so that the installation height on both sides of the nutrient container portion 210 can be varied can do.

2 and 3, the guide block 211 is fitted into a plurality of coupling grooves 212 formed on upper and lower ends of both sides of the nutrient container portion 210 so that the nutrient container portion 210 210 can be varied in height on both sides.

The cover 220 may have various structures such as a structure in which one or more openings 221 are formed so as to cover the upper side of the nutrient container portion 210 with the plant container 231 planted with the plant inserted therein.

Here, the plant container 231 may have various configurations as a configuration in which the culture soil is contained so that plants can be grown, and at least one opening is formed so that the nutrient solution contained in the nutrient container portion 210 can be absorbed therein.

Especially when the plant container 213 is directly installed, there is a problem that the culture soil leaks to the nutrient solution container part 210. Therefore, And can be supported by the supporting part 230.

The container auxiliary supporting portion 230 forms a receiving space corresponding to the shape of the plant container 213 and includes an upper ring 231, a lower ring 232 and an upper ring 231, And a plurality of frames 233 connecting the plurality of frames 232.

The container auxiliary support unit 230 may further include a handle 234 protruding upward to facilitate installation and disassembly of the user.

The cover 220 is composed of a plate-like plate member having a structure in which one or more openings 221 are formed so as to cover the upper side of the nutrient container portion 210 and insert the plant container 231 planted with the plant therein Various shapes are possible.

The opening 221 is an opening formed in the closure part 220 so that the plant container 231 planted with the plant is inserted therein and has a shape corresponding to the horizontal cross-sectional shape of the plant container 231 Shape.

The openings 221 may be formed in an arrangement of n × m (n, m is a natural number of 2 or more) based on the front of the housing 100 so that a plurality of plants can be planted.

The cover 220 may include a buoy through hole 222 through which the buoy 250 is inserted to measure the amount of the nutrient solution contained in the nutrient container 210.

The buoy 250 can be moved up and down in accordance with the amount of the nutrient solution contained in the nutrient container 210 so that the user can confirm whether the nutrient solution is deficient or not.

The cover 220 may further include a nutrient solution inlet 223 for injecting the nutrient solution into the nutrient vessel 210 so that the nutrient solution can be replenished when the nutrient solution is insufficient.

On the other hand, the plant located innermost in the growth space S on the basis of the door portion 190 is difficult to observe from the outside due to the fact that the plant located in the front side is covered by the plant located in front of it and it is difficult to confirm the growth state or the like.

2 and 3, the vegetation part 200 is constructed such that the plant vessel 231 positioned on the inner side with respect to the front of the housing 100 is the highest and is installed lower toward the front side .

For this, the vegetation part 230 may be configured such that the upper end of the closure part 220 gradually increases while moving backward with respect to the front of the housing 100.

The nutrient container portion 210 may be provided at the uppermost part of the innermost part of the vegetation part 230 so that the amount of the nutrient solution may be varied. And may be divided into a plurality of parts while being directed backward with respect to the front of the housing 100.

In addition, since the upper and lower heights of the divided nascent liquid containers 210 are the same, the number of molds required for manufacturing is reduced in consideration of the fact that the amount of the pie is constant and is formed in plastic injection, have.

Particularly, when the upper and lower heights of the divided nutrient container portions 210 are constant and the height of the upper portion of the nutrient container portions 210 is different, the installation position of the guide block 211 described above may be a problem.

As described above, the guide block 211 can be detachably attached to both sides of the nutrient container portion 210, and the nutrient container portion 210 in the housing 100 can be detachably attached to the nutrient container portion 210, The installation height of the nutrient container portion 210 on both sides of the nutrient container portion 210 is variable so that the installation height of the nutrient container portion 210 can be adjusted.

Meanwhile, when the nutrient container portions 210 are divided into a plurality of portions, the nutrient container portions 210 may contain nutrient solutions of different components in accordance with the type of plant, the growth condition, and the like.

Accordingly, the present invention has an advantage of being able to provide optimal growth conditions for plants with different growth conditions, supply of nutrients optimized for different kinds of plants, and the like, thereby providing more optimized growth conditions.

The illumination unit 300 may be configured to perform illumination to form a growth environment of plants planted in the vegetation unit 200 provided above the growth space S, and may have a variety of configurations.

For example, the illumination unit 300 may include a plurality of LED elements 310; An LED substrate 320 on which a plurality of LED elements 310 are mounted; And a heat dissipating member 330 coupled to a back surface of the LED substrate 320 to dissipate heat generated from the LED elements 310.

The plurality of LED elements 310 may be various LED elements depending on the kind of plants, growth conditions, and the like. The LED elements 310 may be light emitting elements for promoting the growth of plants planted in the vegetation part 200.

The LED substrate 320 may include a plurality of LED elements 310 and may have various configurations according to the arrangement and structure of the LED elements 310.

The heat dissipating member 330 is coupled to the back surface of the LED substrate 320 to dissipate heat generated from the LED devices 310, and various members such as aluminum can be used.

Particularly, the heat dissipating member 330 is partially provided on the air discharge path 510 described later, thereby maximizing the heat radiation effect.

Meanwhile, the LED substrate 320 may be installed in a concave groove formed in the ceiling portion of the inner housing 150 as described above.

As shown in FIG. 5, the LED elements 310 may be arranged in a row.

For this, the LED substrate 320 may have a rectangular shape corresponding to the LED elements 310 of each row.

Meanwhile, the plant cultivation apparatus according to the present invention comprises at least one of a pair of outer side walls 110 facing each other for promoting the growth of plants, and air is sprayed toward plants planted in the vegetation part 200 (400); At least a part of an air discharge path 510 formed in a pair of outer walls 110 opposed to each other and through which air in the growth space S is discharged to the outside so as to facilitate air injection by the air spray part 400 And a handle 500 formed to allow the user to receive the handle 500.

The air injecting unit 400 is installed in at least one of a pair of outer side walls 110 facing each other for promoting the growth of plants and is configured to inject air toward plants planted in the vegetation part 200, Configuration is possible.

The air injection unit 400 may include an axial flow fan, a cross flow fan, an air pump, or the like according to an air injection method.

For example, the air injector 400 is installed inside an air inlet 410 formed in a pair of outer walls 110 opposed to each other and sucks air through an air inlet 410 to form a growth space S An air flow forming part 420 for forming an air flow to the first and second end portions of the air flow path; And an air injection path 430 passing through the air inlet 410 and the air flow forming part 420.

The air flow forming part 420 is installed inside the air inlet 410 formed in the pair of outer walls 110 facing each other and sucks the air through the air inlet 410 to the growth space S Various configurations such as an axial flow fan, a cross flow fan, and the like are possible as the structure for forming the air flow.

Here, the air inlet 310 may be formed in a variety of shapes such as an opening formed in a pair of outer side walls 110 opposed to each other and formed of a plurality of micropores to prevent foreign substances from being introduced into the air inlet 310.

In addition, an air filter or the like may be installed in the air inlet 310 to prevent foreign substances from entering the air inlet 310.

The housing 100 is provided at an inner side of a pair of outer side walls 110 opposed to each other with an interval from a pair of outer side walls 110 opposed to each other, And a pair of inner housings 150 formed with an air injection opening 151 through which air is injected by the air flow forming portion 410. The air flow forming portion 410 is disposed between the outer wall 110 and the inner housing 150 Can be installed.

The air injection passage 430 may be formed to have various structures according to the air flow structure through the air inlet 410 and the air flow forming part 420.

The air injection port 151 may be formed straight from the front to the rear of the housing 100 so that air can be evenly sprayed to the plants.

The handle 500 is formed on a pair of outer walls 110 opposed to each other. The handle 500 has an air discharging passage 400 through which the air in the growth space S is discharged to the outside, And at least a part of the image forming apparatus 510 may be configured and configured to be user-accessible.

For example, the handle 500 may be recessed from the outer surfaces of the pair of opposite outer walls 110 to form at least a part of the air discharge passage 510.

The handle 500 may have various configurations as a configuration in which the handle 500 is formed on a pair of outer walls 110 opposed to each other for movement such as lifting the device by lifting the hand.

Particularly, the handle 500 preferably includes at least a part of an air discharge passage 510 through which air in the growth space S is discharged to the outside so that the air injection by the air spray part 400 is smooth.

For this, the handle 500 may be recessed from the outer wall 110 and open at its end.

Further, a discharge flow forming portion 590 such as a fan may be additionally provided at an end portion of the handle 500 to facilitate air discharge through the air discharge passage 510.

It is preferable that the discharge flow forming portion 590 uses a cross flow fan considering the air flow at the opening of the long handle portion 500.

In order to form the air discharge passage 510, the above-described inner housing 150 has a discharge opening 154 formed in the vicinity of the handle 500.

It is preferable that the discharge opening 154 is formed to have a size corresponding to the handle 500 so that the discharge of air by the air flow forming portion 420, the discharge flow forming portion 590,

In order to prevent the backflow of air from the discharge opening 154, a blocking membrane 155 may be installed to prevent backflow while allowing air to be discharged from the growth space S.

The shielding film 155 is provided on the outer surface of the inner housing 150 in a thin film so as to be installed in the discharge opening 154 to prevent backflow while allowing air to be discharged from the growth space S, This is possible.

That is, due to the construction of the thin film barrier membrane 155, when the air is discharged through the discharge opening 154, the discharge opening 154 is opened to discharge the air in the growth space S to the outside, When the air outside the growth space S tries to flow into the growth space S, the discharge opening 154 is closed so as to shut off the discharge opening 154, thereby preventing air backflow into the growth space S .

On the other hand, on the air discharge path 510, as described above, the radiation member 330 is installed to maximize the radiation effect of the radiation member 330.

Particularly, when the air inside the housing 100 is discharged to the outside by the air discharge passage 510, the air can be discharged to the outside through the air near the radiation member 330 to maximize the radiation effect of the radiation member 330.

In the meantime, when the air spraying unit 400 is sprayed with air, the plant is stressed to promote plant growth.

At this time, when air is injected by the air injecting unit 400, the injection pressure is changed rather than being constant, so that the effect of blowing wind in nature can be given.

On the other hand, as an air jet method for plants, the air jet unit 400 includes an air pump (not shown) for supplying compressed air; (Not shown) installed at a pair of outer walls 110 opposed to each other and spraying air toward plants planted in the vegetation part 200.

The air pump may be an air compression pump for supplying compressed air for air injection through the injection nozzle unit.

The spray nozzle unit is installed in a pair of outer side walls 110 opposed to each other and may be configured in various ways as a structure for spraying air toward plants planted in the vegetation part 200.

For example, the injection nozzle unit may include a pipe extending rearward from the front of the housing 100 and having a plurality of air injection holes for air injection in the longitudinal direction.

The piping can be connected by the air pump and the air supply pipe described above.

Meanwhile, by increasing or decreasing the air jetting pressure through the jetting nozzle unit, the jetting pressure during the air jetting can be changed rather than being constant, thereby giving a wind blowing effect in nature.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: housing 200: vegetation part
300: illumination unit 400:

Claims (15)

A housing (100) having a rectangular parallelepiped shape and being isolated from the outside and forming a plant growth space (S);
A vegetation part 200 installed below the growth space S and planting plants;
An illumination unit 300 installed on the upper side of the growth space S and performing illumination to form a plant growth environment in the vegetation unit 200;
And an air spraying part (400) installed on at least one of a pair of outer walls (110) facing each other and spraying air toward a plant planted in the vegetation part (200)
The vegetation part (200)
Wherein the plant vessel (231) positioned on the inner side with respect to the front of the housing (100) is the highest and is installed lower toward the front side. The method according to claim 1,
A nutrient solution container 210 having an upper side opened and containing a nutrient solution for growing a plant; and at least one opening 221 for inserting and installing a plant container 231, And a cover 220 formed on the base plate 220,
The plant cultivation apparatus according to claim 1, wherein the cover unit (220) has a plant container (231) located on the inner side with respect to the front of the housing (100). The method of claim 2,
In the nutrient container portion 210,
Wherein a guide block (211) is provided on both sides of the housing (100) so as to be slidable along a guide rail (153) provided inside the housing (100) . The method of claim 3,
Wherein the guide block (211) is installed on both sides of the nutrient container portion (210) so that the guide block (211) can be slidably moved along the guide rails (153) installed in the housing (100). The method of claim 3,
The guide block 211 is detachably installed on both sides of the nutrient container portion 210 and is disposed in the nutrient container portion 210 so as to adjust the installation height of the nutrient container portion 210 in the housing 100. [ ) Is installed so that the height of installation on both side surfaces of the plant (1) is variable. The method of claim 5,
The guide block 211 is fitted into the plurality of coupling grooves 212 formed on both sides of the nutrient container portion 210 in a vertically multi-stage manner so that the installation height at both sides of the nutrient container portion 210 is Wherein the plant cultivating device is adapted to be variable. The method according to any one of claims 1 to 6,
The vegetation part (230)
In order to compensate for the variation in the amount of the nutrient solution, the nutrient container portion 210 is disposed rearward (with respect to the front of the housing 100) Wherein the plant is divided into a plurality of plants. The method of claim 7,
The air discharge path (510) formed in the pair of outer walls (110) facing each other and through which the air inside the growth space (S) is discharged to the outside for smooth air injection by the air injection part And a handle (500) formed so as to allow the user to carry out a part of the plant cultivation. The method of claim 8,
The illumination unit 300 includes:
A plurality of LED elements 310;
An LED substrate 320 provided with the plurality of LED elements 310;
And a heat dissipating member 330 coupled to a back surface of the LED substrate 320 to dissipate heat generated from the LED devices 310,
Wherein the heat dissipating member (330) is installed on the air discharge flow path (510). The method of claim 9,
The handle 500 includes:
Wherein at least a part of the air discharge passage (510) is formed by being recessed in an outer surface of the pair of outer side walls (110) facing each other. The method of claim 8,
The air injector (400)
An air flow which is installed inside an air inlet 410 formed in the pair of outer walls 110 facing each other and sucks air through the air inlet 410 to form an air flow into the growth space S, Forming portion 420;
And an air injection path (430) passing through the air inlet (410) and the air flow forming part (420). The method of claim 11,
The housing (100)
A pair of inner housings (not shown) having an air jet opening 151 through which the air injected by the air flow forming part 420 is formed are formed at an interval from the pair of outer walls 110 opposed to each other, 150), < / RTI >
Wherein the air flow forming part (410) is installed between the outer wall (110) and the inner housing (150). The method of claim 12,
The air jet opening 151 is formed in the air-
And a straight line extending from the front to the rear of the housing (100). The method of claim 8,
The air injector (400)
An air pump 450 for supplying compressed air;
And a spray nozzle part installed at a pair of outer walls (110) facing each other and spraying air toward plants planted in the vegetation part (200). 15. The method of claim 14,
Wherein an air injection pressure through the injection nozzle unit is increased or decreased.

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