KR102511080B1 - Container type plant growth apparatus - Google Patents

Abstract

The present invention is to provide a container-type plant cultivation device capable of obtaining ease of operation and optimum productivity through utilization of an internal cultivation space while increasing the rigidity of a structure caused by wind by lowering the overall height of the cultivation device. The present invention for this purpose is a layer partitioning frame for partitioning the first cultivation room and the second cultivation room; a container-type first cultivation unit coupled to a lower portion of the layer division frame and forming the first cultivation chamber together with the layer division frame; And a greenhouse-type second cultivation unit coupled to the upper portion of the layer division frame and forming the second cultivation room together with the layer division frame, wherein the first cultivation room includes a first cultivation area in which plants are grown; It is divided into a first non-cultivation area providing a work space, and the second cultivation room is divided into a second cultivation area for plant cultivation and a second non-cultivation area providing a work space, and the layer dividing frame is the first. A first frame portion disposed between the first cultivation area and the second non-cultivation area and a second frame portion disposed between the first non-cultivation area and the second cultivation area, The second frame unit is provided to have a height difference, and discloses a feature in which the first cultivation area and the second cultivation area are alternately arranged.

Description

Container type plant cultivation device {CONTAINER TYPE PLANT GROWTH APPARATUS}

The present invention relates to a plant cultivation apparatus, and more particularly, to a container-type plant cultivation apparatus capable of obtaining ease of operation and optimal productivity through utilization of internal space while increasing the rigidity of a structure caused by wind by lowering the overall height of the cultivation apparatus. It is about.

We are facing food shortages due to global warming and abnormal climate, and securing safe food has emerged as a new issue due to environmental destruction caused by fine dust and heavy metal pollution and the spread of diseases such as viruses.

Accordingly, the so-called plant factory, which is out of the limited open space, has developed into a fully controlled plant factory using artificial light through a plant factory using sunlight in the early days. This is an expected technology field.

Nevertheless, most of the plant factories are not profitable and do not make the desired profit, so producers are experiencing many practical difficulties. In addition, plant factories have a distribution structure and sales aspects, but before that, the completeness of system technology such as plant factory structure, lighting device, cultivation device, environmental control device, automation and energy saving is poor, and variety selection, seedling management, and light control are lacking. It can be attributed to the lack of crop production technology such as management, hydroponic cultivation, growth environment control, and crop productivity.

In particular, in a country with a narrow national territory, such as Korea, the problem of low productivity due to low utilization efficiency in input cost per unit area of resources acts as a major reason.

Therefore, plant factories should be constructed considering cost and space aspects from the beginning of design as well as structural stability.

Republic of Korea Patent Registration No. 1951922 (2019.02.26. Notice)

An object of the present invention is to solve the conventional problems, and the present invention lowers the overall height of the cultivation device to increase the rigidity of the structure due to wind, etc., while utilizing the internal cultivation space to obtain ease of operation and optimal productivity It is to provide a container-type plant cultivation device.

In order to achieve the above object of the present invention, the container type plant cultivation apparatus according to an embodiment of the present invention includes a layer partitioning frame for partitioning a lower first cultivation room and an upper second cultivation room; a container-type first cultivation unit coupled to a lower portion of the layer division frame and forming the first cultivation chamber together with the floor division frame; and a greenhouse-type second cultivation unit coupled to an upper portion of the layer division frame and forming the second cultivation room together with the layer division frame, wherein the first cultivation room includes a first cultivation area in which plants are grown and , It is divided into a first non-cultivation area providing a work space, and the second cultivation room is divided into a second cultivation area in which plants are grown and a second non-cultivation area providing a work space, and the layer dividing frame is A first frame unit disposed between the first cultivation area and the second non-cultivation area, and a second frame unit disposed between the first non-cultivation area and the second cultivation area, wherein the first frame unit and The second frame portion is provided to have a height difference, the second non-cultivation area is disposed above the first cultivation area, and the second cultivation area is disposed above the first non-cultivation area. to be

In the container-type plant cultivation apparatus according to an embodiment of the present invention, the height of the first frame portion may be lower than the height of the second frame portion.

In the container-type plant growing apparatus according to an embodiment of the present invention, the first cultivation area is disposed in the center of the first cultivation room, and the first cultivation area is disposed on both sides of the first non-cultivation area. In this case, the second cultivation area may be disposed in the center of the second cultivation room, and the second non-cultivation area may be disposed on both sides of the second cultivation area.

In the container-type plant cultivation apparatus according to an embodiment of the present invention, the first cultivation area is disposed on one side of the first cultivation room, and the first non-cultivation area is disposed on the other side. In this case, the second cultivation room is The second non-cultivation area may be disposed above the first cultivation area, and the second cultivation area may be disposed above the first non-cultivation area.

In the container-type plant cultivation apparatus according to an embodiment of the present invention, the container-type first cultivation unit has a light-shielding sidewall portion to prevent external light from reaching the first cultivation room, and the greenhouse-type second cultivation unit has external light. At least a part of the light-transmitting side wall may be provided to reach the second cultivation room.

In the container-type plant cultivation apparatus according to an embodiment of the present invention, it is installed in at least one of the floor partitioning frame, the container-type first cultivation unit and the greenhouse-type second cultivation unit, and the first cultivation room or the first cultivation unit. 2 A solar panel for supplying power to the cultivation room may be further included.

According to the present invention, while minimizing the overall height of the cultivation device in consideration of wind load, it is possible to efficiently use the space of the plant cultivation area and work area provided in the internal cultivation space, so workability and productivity can be greatly improved.

The plant cultivation apparatus according to the present invention is expected to be used as a plant factory tailored to consumers as well as producers due to its low installation area and input cost.

1 is a perspective view of a container-type plant cultivation apparatus according to an embodiment of the present invention.
Figure 2 is an exemplary diagram showing a comparison between a container-type plant cultivation apparatus (a) of a general multi-layer structure and a container-type plant cultivation apparatus (b) according to an embodiment of the present invention.
3 is an exemplary cross-sectional view of a container-type plant cultivation apparatus according to another embodiment of the present invention.
4 is an exemplary cross-sectional view of a container-type plant growing apparatus according to another embodiment of the present invention.
5 is an exemplary cross-sectional view of a container-type plant growing apparatus according to another embodiment of the present invention.
6 is an exemplary cross-sectional view of a container-type plant cultivation apparatus according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention in which the above-described problem to be solved can be realized in detail will be described with reference to the accompanying drawings. In describing the present embodiments, the same name and the same reference numeral may be used for the same configuration, and additional description accordingly may be omitted.

1 is a perspective view of a container-type plant cultivation device according to an embodiment of the present invention, and FIG. 2 is a container-type plant cultivation device (a) of a general multi-layer structure and a container-type plant cultivation device according to an embodiment of the present invention. It is an exemplary diagram showing comparison of (b).

Referring to Figures 1 and 2, the plant cultivation apparatus according to the present embodiment provides a container-type plant cultivation apparatus capable of obtaining ease of operation and optimal productivity through space utilization having a multi-story cultivation space.

The container-type plant cultivation apparatus for this may include a layer division frame 100, a container-type first cultivation unit 200, and a greenhouse-type second cultivation unit 300.

The layer division frame 100 may partition the first cultivation room 210 on the lower side and the second cultivation room 310 on the upper side.

In the first cultivation room 210, the floor division frame 100 may form a ceiling, and in the second cultivation room 310, the floor division frame 100 may form a floor.

The container type first cultivation unit 200 may be coupled to the lower portion of the floor partitioning frame 100, and the first cultivation room 210 may be formed therein together with the floor partitioning frame 100 forming the ceiling surface. there is.

The greenhouse type second cultivation unit 300 may be coupled to the upper portion of the floor partitioning frame 100, and the second cultivation room 310 may be formed therein together with the floor partitioning frame 100 forming the bottom surface. there is.

Therefore, the first cultivation room 210 on the lower side and the second cultivation room 310 on the upper side may have a vertical multi-layer structure through the layer division frame 100.

The container type first cultivation unit 200 may include a bottom portion facing the floor partitioning frame 100 and a first side wall portion connecting an edge portion of the bottom portion and an edge portion of the floor dividing frame 100 . At this time, as shown in FIG. 3, the first side wall portion may include a side wall extension portion 201 extending to the height of the planting bed 315 disposed on the upper surface of the floor dividing frame 100. In other words, the side wall extension part 201 of the first side wall part may extend to the height of the second frame part 130 to be described later. Accordingly, the rigidity of the structure may be increased while maintaining the overall height of the cultivation device. The height of the side wall extension 201 can be freely designed and changed within a range that does not interfere with natural light directed to the plants placed on the planting bed 315 .

Here, the bottom portion and the first side wall portion forming the container-type first cultivation unit 200 may be provided with a light-blocking material. Therefore, the first cultivation room 210 may have a cultivation environment independent of external natural light. For example, in the first cultivation room 210, a plant culture environment may be created regardless of the season or weather. In this case, the plant cultivation device may additionally include a temperature and humidity control device, and various facilities required for plant cultivation including the temperature and humidity control device may be installed in the first cultivation room 210 .

In addition, the bottom portion and the first side wall portion forming the container-type first cultivation unit 200 may be made of a rigid construction material such as metal. Therefore, the floor partitioning frame 100 and the greenhouse-type second cultivation unit 300 can be stably supported by the container-type first cultivation unit 200 . In this case, a heat insulating material may be additionally provided on the bottom portion and the first side wall portion.

In addition, a door may be provided on a portion of the first side wall portion forming the container-type first cultivation unit 200 . A worker may enter and exit the first cultivation room 210 through the door.

The greenhouse type second cultivation unit 300 may include a ceiling portion facing the floor division frame 100 and a second side wall portion connecting an edge portion of the ceiling portion and an edge portion of the floor division frame 100 .

Here, at least a portion of the ceiling portion and the second sidewall portion forming the greenhouse type second cultivation unit 300 may be provided with a light-transmitting material. Therefore, external natural light can reach the second cultivation room 310, and thus the second cultivation room 310 can have a greenhouse effect. For example, the ceiling and the second side wall of the greenhouse type second cultivation unit 300 may include a translucent material such as vinyl, plastic, or glass.

The first cultivation room 210 may be divided into a first cultivation area 211 and a first non-cultivation area 213 .

The first cultivation area 211 may correspond to an area where plants are grown, and the first non-cultivation area 213 may correspond to an area where plants are not grown.

In the first cultivation area 211, a multi-stage culture bed 215 for culturing the plant P1 may be provided, and a worker's movement line may be secured through the first non-cultivation area 213.

The second cultivation room 310 may be divided into a second cultivation area 311 and a second non-cultivation area 313.

The second cultivation area 311 may correspond to an area where plants are grown, and the second non-cultivation area 313 may correspond to an area where plants are not grown.

A planting bed 315 for culturing plants P2 may be provided in the second cultivation area 311 , and a worker's movement line may be secured through the second non-cultivation area 313 .

Here, the first cultivation area 211 of the first cultivation room 210 and the second cultivation area 311 of the second cultivation room 310 may be alternately arranged.

And, the floor division frame 100 may include a first frame unit 110 and a second frame unit 130 .

The first frame unit 110 may be disposed between the first cultivation area 211 and the second non-cultivation area 313, and the second frame unit 130 may be disposed between the second cultivation area 311 and the first non-cultivation area 311. It can be arranged between the cultivation areas 213. That is, the lower surface of the first frame unit 110 is exposed to the first cultivation area 211 and the upper surface is exposed to the second non-cultivation area 313 . And, the lower surface of the second frame unit 130 is exposed to the first non-cultivation area 213 and the upper surface is exposed to the second cultivation area 311 .

At this time, the first frame part 110 and the second frame part 130 may have a height difference, and the height of the first frame part 110 may be lower than the height of the second frame part 130. .

In this way, through the first frame unit 110 and the second frame unit 130 having a height difference, the first cultivation area 211, the first non-cultivation area 213, and the second cultivation area 311 and By arranging the second non-cultivation areas 313 to be staggered, the work efficiency of the operator is minimized while minimizing the space between the area where plants are planted and the work area for each of the first cultivation room 210 and the second cultivation room 310. can be raised

In particular, by minimizing the space between the area where plants are planted and the work area in the first cultivation room 210 and the second cultivation room 310, respectively, the container type first cultivation unit 200 and the greenhouse type second cultivation unit It can be designed by minimizing the height of (300).

And, on the lower surface of the first frame unit 110 exposed to the first cultivation area 211, there are nutrient solution nozzles for supplying nutrient solution necessary for plant growth in the first cultivation area 211, or for supplying artificial light. Lighting and the like may be provided.

In addition, a planting bed 315 in which plants of the second cultivation area 311 are planted may be provided on the upper surface of the second frame unit 130 exposed to the second cultivation area 311 .

2, in the first cultivation room 210, the first non-cultivation area 213 is disposed in the center, and the first cultivation area 211 is disposed on both sides of the first non-cultivation area 213. do.

And, in the second cultivation room 310, the second cultivation area 311 is disposed in the center, and the second non-cultivation area 313 is disposed on both sides of the second cultivation area 311 as the center.

As such, since the plant cultivation areas and work areas of the first cultivation room 210 and the second cultivation room 310 are alternately arranged, space efficiency and workability can be improved.

In addition, in the first cultivation room 210 in which the first non-cultivation area 213 in one row and the first cultivation area 211 in two rows are provided, seedlings with a small amount of work can be planted in large quantities.

In addition, in the second cultivation room 310 in which the second cultivation area 311 in one row and the second non-cultivation area 313 in two rows are provided, seedlings with a large amount of work can be efficiently managed.

As shown in FIG. 2 (a), a general multi-layered plant cultivation apparatus in which the greenhouse 30 is stacked on top of the container 20 allows movement and work flow of workers inside the container 20 and the greenhouse 30. In order to secure, the height of the entire cultivation apparatus is high, and there is a problem of being vulnerable to wind load, and there is a problem of space loss due to unnecessary height. In addition, a design such as the addition of a support 21 to reinforce a structural defect due to wind load should be considered. In addition, in order for workers to enter the greenhouse 30, a stairway extending from the floor to the top of the container 20 must be installed. At this time, there is a problem in that a high stair structure corresponding to the height of the container 20 must be provided. In addition, as the inner space of the container 20 and the greenhouse 30 unnecessarily increases, there is a problem in that energy consumption for heating and cooling increases.

On the other hand, as shown in FIG. 2 (b), the lower container type first cultivation unit 200 and the upper greenhouse type second cultivation unit 300 have a vertical multi-layer structure via the layer division frame 100 As a result, it is possible to relatively lower the height of the entire cultivation device, which has a strong advantage in wind load, and can prevent unnecessary space loss by minimizing the height. In addition, reinforcing structures such as the support 21 for reinforcing structural defects may be excluded from design, and stairs for workers to enter the greenhouse type second cultivation unit 300 may also be designed to be reduced to a minimized height. In addition, by reducing unnecessary internal space of the container 20 and the greenhouse 30, the consumption of heating and cooling energy can be minimized.

4 is an exemplary cross-sectional view of a container-type plant growing apparatus according to another embodiment of the present invention.

Referring to FIG. 4 , in the first cultivation room 210, a first cultivation area 211 may be disposed on one side and a first non-cultivation area 213 may be disposed on the other side. In addition, in the second cultivation room 310, the second cultivation area 311 may be arranged on the other side staggered with the first cultivation area 211, and the second non-cultivation area 213 is staggered on one side. An area 313 may be placed. That is, in the second cultivation room 310, the second non-cultivation area 313 may be disposed above the first cultivation area 211, and the second cultivation area above the first non-cultivation area 213 ( 311) may be placed.

On the other hand, the container-type plant cultivation apparatus according to the present embodiment may further include a temperature and humidity control device, an air conditioner, a nutrient solution supply device, a carbon dioxide supply device, and a light supply device.

The temperature and humidity control device may be installed in the first cultivation room 210 or the second cultivation room 310, and the temperature and humidity of the first cultivation room 210 and the second cultivation room 310 are controlled for plant growth. It can be maintained at the required temperature and humidity. Accordingly, the first cultivation room 210 or the second cultivation room 310 can maintain an appropriate temperature and humidity required for plant growth regardless of the external season and weather.

The nutrient solution supply device may be installed in the first cultivation room 210 or the second cultivation room 310, and may supply nutrient solution to the plants planted in the first cultivation room 210 and the second cultivation room 310. . The nutrient solution pipe and the nutrient solution nozzle connected to the nutrient solution supply device may be provided in the culture bed 215 and the planting bed 315.

The carbon dioxide supply device may be installed in the first cultivation room 210 or the second cultivation room 310, and improves photosynthesis of plants planted in the first cultivation room 210 and the second cultivation room 310. Carbon dioxide (CO2) can be supplied for this purpose. A carbon dioxide supply pipe connected to the carbon dioxide supply device may be provided in the culture bed 215 and the planting bed 315 .

The light supply device may supply light for photosynthesis of plants planted in the first cultivation room 210 or the second cultivation room 310 . The light supply device may independently supply light only to the first cultivation room 210 where natural light cannot be introduced. For example, lighting may be used as the light supply device, and such lighting may be provided on the lower surface of the floor dividing frame 100. Of course, the light supply device may be further provided in the greenhouse type second cultivation unit 300, and the second cultivation room 310 may additionally receive artificial light as needed in addition to natural light.

Meanwhile, the container-type plant cultivation apparatus according to the present embodiment may further include a control unit 500 (see FIG. 5).

The control unit 500 supplies temperature, humidity, nutrient solution and light required for plant growth in the first cultivation room 210 and the second cultivation room 310 by controlling the air conditioner, air conditioner, nutrient solution supply device, and light supply device. can control.

5 is an exemplary cross-sectional view of a container-type plant growing apparatus according to another embodiment of the present invention.

Referring to FIG. 5, the greenhouse-type second cultivation unit 300 of the container-type plant cultivation apparatus according to the present embodiment may include a translucent material such as vinyl, plastic, or glass, as described above. External natural light may reach the second cultivation room 310, and thus the second cultivation room 310 may have a greenhouse effect.

In this case, the greenhouse type second cultivation unit 300 may be designed to have a structure in which external natural light can be introduced more effectively.

That is, as shown, the greenhouse type second cultivation unit 300 may be designed to be obliquely inclined toward the south toward sunlight. For example, the ceiling of the greenhouse type second cultivation unit 300 may be inclined obliquely toward the south.

Therefore, the second cultivation room 310 can effectively introduce external natural light, thereby maximizing the greenhouse effect of the second cultivation room 310 and minimizing the consumption of heating and cooling energy.

6 is an exemplary cross-sectional view of a container-type plant cultivation apparatus according to another embodiment of the present invention.

Referring to FIG. 6 , the container type plant cultivation apparatus according to the present embodiment may further include a solar panel 400 .

The solar panel 400 can generate power from sunlight, and the power generated in this way can be supplied to the first cultivation room 210 or the second cultivation room 310, and can be used for cooling and heating devices, air conditioners, and nutrient solutions. Power can be supplied by the supply device and the light supply device.

The solar panel 400 may be installed in at least one of the floor division frame 100, the container type first cultivation unit 200 and the greenhouse type second cultivation unit 300.

For example, the solar panel 400 is disposed on the upper surface of the first frame unit 110 disposed in the southward direction of the floor division frame 100 and in the southward direction of the container type first cultivation unit 200. It may be provided on the outer surface of the sidewall, and in the greenhouse type second cultivation unit 300, it may be provided on the inner surface of the sidewall disposed in the northward direction so as not to interfere with the irradiation of sunlight toward the plants in the second cultivation area 311. can

As described above, since the plant cultivation apparatus according to the present invention can efficiently use the space of the plant cultivation area and work area provided in the vertical multi-layer cultivation space while minimizing the overall height of the structure, workability and productivity are greatly improved. can improve

The plant cultivation apparatus according to the present invention has a low area and input cost for installation, so it is expected to be used as a plant factory tailored to consumers as well as producers.

As described above, the preferred embodiments of the present invention have been described with reference to the drawings, but those skilled in the art can make various modifications to the present invention within the scope not departing from the spirit and scope of the present invention described in the claims below. may be modified or changed.

100: floor division frame
110: first frame part
130: second frame part
200: container type first cultivation unit
210: first cultivation room
300: greenhouse type second cultivation unit
310: second cultivation room

Claims (6)

Layer partitioning frame for partitioning the first cultivation room on the lower side and the second cultivation room on the upper side;
a container-type first cultivation unit coupled to a lower portion of the layer division frame and forming the first cultivation chamber together with the floor division frame; and
A greenhouse-type second cultivation unit coupled to an upper portion of the layer division frame and forming the second cultivation room together with the layer division frame; includes,
The first cultivation room is divided into a first cultivation area in which plants are grown and a first non-cultivation area providing a work space,
The second cultivation room is divided into a second cultivation area in which plants are grown and a second non-cultivation area providing a work space,
The layer division frame includes a first frame portion disposed between the first cultivation area and the second non-cultivation area, and a second frame portion disposed between the first non-cultivation area and the second cultivation area,
The first frame part and the second frame part are provided to have a height difference,
The container-type plant cultivation apparatus, characterized in that the second non-cultivation area is disposed above the first cultivation area, and the second cultivation area is disposed above the first non-cultivation area. According to claim 1,
Container-type plant cultivation apparatus, characterized in that the height of the first frame portion is lower than the height of the second frame portion. According to claim 1,
In the first cultivation room, the first non-cultivation area is disposed in the center, and the first cultivation area is disposed on both sides around the first non-cultivation area,
The container-type plant cultivation apparatus, characterized in that the second cultivation area is disposed in the center of the second cultivation room, and the second non-cultivation area is disposed on both sides of the second cultivation area. According to claim 1,
The first cultivation room has the first cultivation area disposed on one side and the first non-cultivation area disposed on the other side,
In the second cultivation room, the second non-cultivation area is disposed above the first cultivation area, and the second cultivation area is disposed above the first non-cultivation area. According to claim 1,
The container-type first cultivation unit has a light-shielding sidewall portion so that external light does not reach the first cultivation room,
The greenhouse-type second cultivation unit is a container-type plant cultivation device, characterized in that it has a light-transmitting side wall at least in part so that external light can reach the second cultivation room. According to claim 1,
It is installed on at least one of the layer division frame, the container-type first cultivation unit, and the greenhouse-type second cultivation unit, and further includes a solar panel for supplying power to the first cultivation room or the second cultivation room. Container-type plant cultivation apparatus, characterized in that the.

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