KR20210019861A - The System for Cultivating Plants with Fog - Google Patents

Abstract

The present invention relates to a system which includes a predetermined closed space and cultivates plants by mist to realize mass cultivation of crops. According to the present invention, the lower end part of a plant cultivation system comprises: a storage tank having an opening formed in the center and including a drain hole protruding upward along the circumference of the opening to prevent a nutrient solution from flowing down through the opening and drain the nutrient solution; a mist generation device disposed at the lower end of the opening of the storage tank to spray mist through the opening in a vertical direction in a centrifugal atomization method; a frame part supporting the lower end of the storage tank and forming the frame of the cultivation system; a transparent or opaque material coupled to the frame part of the side and upper surfaces of the cultivation system; at least one support part provided in the lateral direction of the sprayed mist inside the frame part and arranged for fixing seeds or plants so that the seeds or plants absorb the mist due to the spread of the sprayed mist; and a nutrient solution supply unit supplying a nutrient solution required for growing the plants to the mist generation device.

Description

The System for Cultivating Plants with Fog}

The present invention relates to a plant cultivation system through the fog farming method, and in detail, nutrient solution is sprayed into fine particles to supply nutrients and moisture to the roots of plants, and the plants are cultivated in the air to visually check and cultivate from roots to leaves. It relates to a plant cultivation system, characterized in that it can be.

Agricultural land is decreasing, but consumption in all seasons is becoming more common. In line with this trend, hydroponic cultivation capable of harvesting all seasons is widely used. Hydroponic cultivation refers to cultivating crops using nutrient solution, that is, water in which various necessary nutrients are dissolved without using soil.

Korean Patent Registration No. 1685568 discloses a set of beds for hydroponic cultivation in which a screen cup is formed. Looking at the contents, a container-shaped body that is open upward, a lid formed to cover the body, a through hole formed on the lid, and a through hole It includes a screen cup that is inserted and has drainage holes along the circumference of the side. Patent Registration No. 1685568 solves the hassle of digging out seedlings and planting them in the soil by inserting the screen cup into the through hole of the lid after planting seeds and growing them into seedlings after filling the screen cup with soil.

However, in the prior art such as Korean Patent Registration No. 1685568, most of the crops are grown using top soil, and the top soil may damage the roots when washing, and customs clearance problems may occur in export, and planting is inconvenient. In addition, the soil may contain unidentified pesticides.

Recently, a hydroponic cultivation apparatus has been developed. Korean Patent Registration No. 1424058 discloses an industrial hydroponic cultivation system, and its contents include a tray, a frame supporting the tray, a perforated plate supporting ginseng, a nutrient solution storage tank, a nutrient solution transfer pump, and a light source with adjustable height. Including, it is configured to enable mass cultivation.

Korean Patent Registration No. 1424058 having such a configuration is configured to supply nutrient solution through a water supply line and collect it through a drainage line so that the nutrient solution in the form of water is in direct contact with the ginseng root.

However, Korean Patent Registration No. 1424058 supports ginseng by using a perforated plate, but there is a limit to mass production of ginseng with such a support configuration.

The present invention is to solve this problem of the prior art,

First, mass cultivation of crops is possible,

Second, it can greatly reduce the working time required for growing crops,

Third, it can not cause or minimize export customs issues,

Fourth, nutrient solution can be evenly supplied not only to the roots, but also to the stems and leaves,

Fifth, it is possible to form and maintain the optimum temperature and humidity for hydroponic cultivation,

Lastly, it is intended to provide a plant cultivation system through the fog farming method that allows you to monitor and manage the growth status of plants in the air.

The plant cultivation system through the fog farming method of the present invention for achieving this purpose relates to a system for cultivating plants through fog having a certain closed space,

The lower end of the plant cultivation system has an opening formed in the center and protruding upwardly along the circumference of the opening to prevent the nutrient solution from flowing down through the opening and a storage tank having a drain hole for draining the nutrient solution, and an opening of the storage tank A mist generating device disposed at the lower end and spraying mist through the opening in a vertical direction in a centrifugal atomization method, a frame part supporting the lower end of the storage tank and forming the skeleton of the cultivation system, and the side and upper surfaces of the cultivation system. A transparent or opaque material combined with the frame part, and provided in the lateral direction of the sprayed mist from the inside of the frame part, and fixing the seeds or plants so that the seeds or plants absorb the mist due to the spread of the sprayed mist It characterized in that it comprises at least one support portion disposed, and a nutrient solution supply unit for supplying the nutrient solution required for the growth of the plant to the fog generating device.

In addition, the plant cultivation system according to the present invention further includes a blowing means for injecting air into the plant cultivation system from the outside.

In addition, the plant cultivation system according to the present invention is provided with a slit in the transparent or opaque material, includes a temperature sensor for sensing the internal temperature of the system on both sides inside the plant cultivation system, and further supports the lower end of the support. It characterized in that it includes.

The support part has a plurality of circular through-holes formed on the upper surface thereof so that a plant can be inserted into the hole, and a plurality of insertion slit is formed radially in the through-hole in a structure connected to the through-hole to form the insertion slit. The plant may be inserted and fixed.

In addition, as another embodiment, the support portion may be characterized in that it has a shape of a tray on which the seeds are disposed.

The plant cultivation system according to the present invention may further include an irradiation unit that is installed on the upper side of the support part, is provided with at least one LED lamp, and irradiates light toward the support part.

And, it may include an irradiation control device for controlling the power of the irradiation unit to be connected to the irradiation unit to automatically irradiate the light irradiated through the LED lamp according to a set period.

The mist generating device in the plant cultivation system according to the present invention comprises a nutrient solution storage tank for storing nutrient solution through the nutrient solution supply unit, a mist atomizing device for atomizing the nutrient solution in the nutrient solution storage tank into fog, and a blowing means for spraying the fog. It can be configured to include.

The plant cultivation system is a modular cultivation system with a housing for managing at least one plant cultivation system, and an air conditioning system for controlling the external temperature of the entire plant cultivation system of the present invention in the housing can be further included to manage plants. have.

The housing may be a container type or a plant factory type housing.

Plant cultivation system through the fog farming method according to the present invention,

Mist of fine particles containing nutrient solution has the effect of allowing mass cultivation by directly affecting plants arranged in a multistage form.

In particular, it is a system that can be applied to various crops such as sprout cultivation or leafy vegetables through the change of the base of this system, and the type can be changed according to the purpose of crop cultivation, so that the spread of cultivation through fog can be achieved.

In addition, the agricultural system suitable for the aging era can greatly reduce the working time required for growing crops.

The plant cultivation system through the fog farming method according to the present invention is a modular cultivation system, and can be designed as a system capable of integrated management by configuring a plurality of systems in a container, a plant factory type, or anywhere internal air conditioning is possible.

1 is a block diagram of a plant cultivation system through a fog farming method according to an embodiment of the present invention.
Figure 2 is a front view for explaining the plant cultivation system through the fog farming method according to an embodiment of the present invention.
Figure 3 is a perspective view for explaining the plant cultivation system through the fog farming method according to an embodiment of the present invention.
Figure 4 is an exemplary photograph for explaining the support of the plant cultivation system through the fog farming method according to an embodiment of the present invention.
Figure 5 is an embodiment photograph for explaining the support of the plant cultivation system through the fog farming method according to an embodiment of the present invention.
Figure 6 is an embodiment photograph for explaining the support of the plant cultivation system through the fog farming method according to another embodiment of the present invention.
Figure 7 is a perspective view for explaining the housing of the plant cultivation system through the fog farming method according to an embodiment of the present invention.
8 is an exemplary photograph of cultivating sprout ginseng using a plant cultivation system through a fog farming method according to an embodiment of the present invention.

Hereinafter, a plant cultivation system through the mist farming method of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a plant cultivation system through a fog farming method according to an embodiment of the present invention.

As shown in FIG. 1, the cultivation system is multi-stage, and a fog generator is disposed at the lower center of the cultivation system, and a support for fixing seeds or plants is configured for each layer.

The support part is disposed on both sides of the mist fine particles vertically sprayed from the fog generating device in an upward direction, and the support part may have a different configuration according to the type of crop cultivation. For example, when cultivating sprout ginseng, a supporting part capable of fixing the seedlings will be required, and when cultivating sprout broccoli or sprout peanut, it may be configured as a supporting part having a tray shape.

The vertically sprayed mist fills the space of the plant cultivation system and directly affects the plants.

In addition, LEDs can be arranged for each layer according to the crop type, and the LED is preferably an LED having a moisture-proof function. The LEDs arranged for each layer can be arranged anywhere above the plant so that photosynthesis can be performed. In the exemplary embodiment of the present invention, it may be arranged in the column direction from the top of the support part, and it may be arranged to irradiate LED light in a diagonal direction from both sides of the support part.

2 and 3 are a front view and a perspective view for explaining the plant cultivation system through the fog farming method according to an embodiment of the present invention.

The present invention relates to a system for cultivating plants through fog having a certain closed space, and the lower end of the plant cultivation system 100 has an opening 10 formed in the center and protrudes upward along the circumference of the opening to provide nutrient solutions. A storage tank 20 having a drain hole 15 that prevents flowing down through the opening and drains the nutrient solution, and is disposed below the opening of the storage tank 20 through the opening in a vertical direction by a centrifugal atomization method. A fog generating device 30 for spraying fog, a frame part 40 supporting the lower end of the storage tank 20 and forming a skeleton of the cultivation system, and a frame part 40 of the cultivation system to enhance the appearance A transparent or opaque material 50 formed, and provided in the lateral direction of the sprayed mist from the inside of the frame part 40, and the seeds or plants so that the sprayed mist is spread so that the seeds or plants absorb the mist. It may include a support portion 60 is disposed at least one or more to fix the, and a nutrient solution supply unit 70 for supplying the nutrient solution required for the growth of the plant to the fog generating device 30.

The frame part 40 may be composed of an aluminum profile, and may be configured as an assembly type or the like depending on the configuration of a pedestal, that is, in a number of steps in the vertical direction.

The opening 10 formed in the central portion of the storage tank 20 is formed to correspond to the mist discharge portion 37 of the mist generating device 30, and the opening 10 protrudes upward, so that the cultivation system 100 ) When the mist scattered inside is recovered to the storage tank 20 again, the nutrient solution recovered through the opening 10 does not fall into the mist discharge part 37.

The fog generator 30 sprays the nutrient solution storage tank 35 for storing the nutrient solution provided through the nutrient solution supply unit 70, a fog atomizer (not shown) for atomizing the nutrient solution in the nutrient solution storage tank into fog, and the fog. It may be configured to include a blowing means (not shown).

The nutrient solution storage tank 35 includes a water level control means (not shown) so that when the nutrient solution level drops, the nutrient solution can be automatically supplied from the nutrient solution supply unit 70.

The nutrient solution in the nutrient solution storage tank 35 stored in this way is sprayed upward through the blowing means in the direction of the opening 10, and the nutrient solution is scattered into fog by a fog atomizer having several slit structures.

Although not shown in the drawing, the transparent or opaque material 50 combined with the frame part 40 has a slit shape so that the mist scattered inside the cultivation system 100 can spread well according to the air flow, Can be circulated.

In addition, the cultivation system 100 may be provided with a blower (not shown) that forcibly blows air from the outside to maintain a constant temperature and air flow inside the cultivation system 100.

The blower may include a blower that sucks in external air and discharges air, and a pipe connected to the discharge part of the blower, and the pipe is inserted into the cultivation system 100 to provide a cultivation system 100. Inject air into it.

The plant cultivation system 100 may be configured to include a temperature sensor for sensing the internal temperature of the system on both sides of the interior. The internal temperature of the plant cultivation system 100 according to an embodiment of the present invention may control the internal temperature according to the temperature of air and mist scattered by the blower.

Since the support part 60 of the plant cultivation system 100 fixes the plant and can be struck under the load as the plant is grown, a support part 65 for supporting the lower end of the support part 60 is further added. Configurable. The support portion 65 may be added with a fixing means 67 so that the support portion 60 can be fixed without shaking (Fig. 4).

The support part 60 may be made of PE foam, which is a polyethylene material, and the support part 60 may be configured in a shape of a tray capable of loading seeds (FIG. 5).

The pedestal 60 made of the PE foam has a plurality of circular through-holes formed on the upper surface thereof so that a plant can be inserted into the hole, and a plurality of radially inserted through holes are connected to the through-hole. A slit may be formed so that the plant may be inserted and fixed by the insertion slit.

In addition, the support part 60 is as shown in FIG. 6 with a support part in the shape of a tray for arranging seeds.

Plant cultivation system 100 according to the present invention is installed on the upper side of the support, at least one LED lamp 55 is provided, it may further include an irradiation unit for irradiating light toward the support.

And, it may include an irradiation control device for controlling the power of the irradiation unit to be connected to the irradiation unit to automatically irradiate the light irradiated through the LED lamp according to a set period.

The LED lamp 55 irradiates light from the upper part of the support part 60, and in the drawing, the LED lamp 55 is configured in a row at the upper part of the support part to irradiate, but preferably the LED lamp 55 It may be provided so as to irradiate light in a diagonal direction at both side edge ends of the receiving part 60 in the upward direction. In this case, it is possible to prevent interference between the plant and the LED lamp 55 when the plant is growing, and in particular, it may be a more preferable configuration in the ornamental aspect by securing the plant cultivation space.

The plant cultivation system 100 is a modular cultivation system with a housing for managing at least one plant cultivation system, and further includes an air conditioning system for controlling the external temperature of the entire plant cultivation system of the present invention in the housing. Can be managed.

The housing may be a container type or a plant factory type housing.

The container-type factory system may be configured as shown in FIG. 7.

A configuration operation of the plant cultivation system through the fog farming method according to an embodiment of the present invention will be described as follows.

The nutrient solution stored in the nutrient solution supply unit 70 is supplied to the nutrient solution storage tank 35 of the fog generator 30 to a certain level by a motor pump or the like. The nutrient solution maintains a constant temperature, a constant pH, and a constant EC value suitable for crops.

The supplied nutrient solution is supplied with fog by the fog generating device 30 in the upper direction of the center of the cultivation system 100. The fog is kept at a constant temperature and scatters inside the system to control the temperature inside the system.

The misted nutrient solution is supplied to plants or seeds to help plant cultivation, and the internal temperature of the plant cultivation system 100 may increase due to thermal energy generated while the plants or seeds germinate. Accordingly, by operating the blower during the cultivation process, air of a certain temperature is supplied into the cultivation system 100 to prevent an increase in the temperature inside the system.

In addition, the mist spraying cycle is set according to the cultivation type of the crop to control the temperature inside the system, while supplying the misted nutrient solution to plants or seeds for cultivation.

Even for the same crop, the spray cycle may be set differently depending on the crop cultivation time.

FIG. 8 is a cultivation photograph of a sprout ginseng cultivation system using a fog farming method according to an embodiment of the present invention, a photograph of a seedling being fixed on a pedestal and cultivating sprout ginseng by supplying a nutrient solution with mist particles to the seedlings to be.

100: plant cultivation system
10: opening
20: storage tank
30: fog generator
40: frame part
50: transparent or opaque material
60: pedestal
70: nutrient solution supply unit
200: housing

Claims (15)

It relates to a system that has a certain confined space and grows plants through fog,
The lower end of the plant cultivation system has an opening formed in the center and protruding upwardly along the circumference of the opening to prevent the nutrient solution from flowing down through the opening and a storage tank having a drain hole for draining the nutrient solution;
A mist generating device disposed at the bottom of the opening of the storage tank and spraying mist through the opening in a vertical direction in a centrifugal atomization method;
A frame portion supporting the lower end of the storage tank and forming the skeleton of the cultivation system,
A transparent or opaque material that is combined with the frame to form an exterior,
At least one support part disposed in the frame part in a lateral direction of the sprayed mist and arranged to fix the seeds or plants so that the seeds or plants absorb the mist due to the spread of the sprayed mist, and
Plant cultivation system through a fog farming method comprising a nutrient solution supply unit for supplying a nutrient solution necessary for plant growth to the fog generating device. The method of claim 1,
Plant cultivation system through a fog farming method, characterized in that it further comprises a blowing device for injecting air into the plant cultivation system from the outside of the plant cultivation system. The method of claim 1,
Plant cultivation system through fog farming, characterized in that the slit is provided in the transparent or opaque material. The method of claim 1,
Plant cultivation system through fog farming method, characterized in that it further comprises a temperature sensor for sensing the internal temperature on both sides of the plant cultivation system. The method of claim 1,
Plant cultivation system through a fog farming method, characterized in that it further comprises a support for supporting the lower end of the support. The method of claim 1,
The support part
Plant cultivation system through a fog farming method, characterized in that a plurality of circular through holes are formed on the upper surface. The method of claim 6,
Plant cultivation system through fog farming method, characterized in that a plurality of insertion slits are radially formed in the through hole in a structure connected to the through hole, and the plant is inserted and fixed through the insertion slit. The method of claim 1,
Plant cultivation system through a fog farming method, characterized in that the support portion has a shape of a tray for arranging the seeds. The method of claim 1,
Plant cultivation system through a fog farming method, characterized in that it is installed on the upper side of the support, at least one LED lamp is provided, further comprising an irradiation unit for irradiating light toward the support. The method of claim 9,
Plant cultivation system through fog farming method further comprising an irradiation control device connected to the irradiation unit and controlling the power of the irradiation unit to automatically irradiate light irradiated through the LED lamp according to a set period. The method of claim 1,
The fog generating device comprises a nutrient solution storage tank for storing the nutrient solution through the nutrient solution supply unit, a fog atomizer for atomizing the nutrient solution in the nutrient solution storage tank into fog, and a blower means for spraying the fog. Plant cultivation system through agricultural methods. The method of claim 1,
The plant cultivation system is a modular cultivation system
Plant cultivation system through a fog farming method, characterized in that it further comprises a housing for managing at least one plant cultivation system. The method of claim 12,
Plant cultivation system through fog farming method, characterized in that it further comprises an air conditioning system for controlling the external temperature of the entire plant cultivation system in the housing. The method of claim 12,
Plant cultivation system through the fog farming method, characterized in that the housing is a container type or a plant factory type housing. The method of claim 9,
The LED lamp is a plant cultivation system through a fog farming method, characterized in that configured to irradiate light in a diagonal direction at both side edge ends in the upper direction of the base.

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