KR20130062678A - Appratus for cultivating plants - Google Patents

Abstract

The present invention provides a plant cultivation apparatus.
The plant cultivation apparatus is formed on at least one side wall of the cultivation room in which the plant is grown therein, the nutrient solution storage wall portion is formed nutrient solution storage space is stored therein; and the nutrient solution storage in communication with the nutrient solution storage space A nutrient solution receiving space into which the nutrient solution accommodated in the space is supplied, the cultivation shelf portion integrally formed with the nutrient solution storage wall portion; and formed between the nutrient solution storage wall portion and the cultivation shelf portion, and supplied to the cultivation shelf portion. Nutrient control unit for adjusting the amount of nutrient solution; and at least one artificial light source unit for irradiating light to the plant grown in the cultivation shelf portion; may be configured.
According to one embodiment of the present invention, the cultivation shelf in which the plant is grown and the wall of the cultivation chamber are integrally formed, and the nutrient solution is stored on the wall so that the nutrient solution injection facility is not required, thereby maximizing the space utilization. The effect can be reduced. In addition, due to the nutrient solution stored in the wall there is an advantage that can be obtained by minimizing the temperature transfer between a plurality of cultivation room without a separate thermal insulation facility.

Description

Plant cultivation apparatus {APPRATUS FOR CULTIVATING PLANTS}

The present invention relates to a plant cultivation apparatus, and more particularly, to a plant cultivation apparatus capable of increasing space utilization and producing a variety of crops.

Plant Factory is a system that can artificially control the environment necessary for the development of plants in the facility by lighting, air conditioning, and nutrient supply, and can continuously produce regardless of season. It is a farming method that adopts a so-called factory-based production system, followed by open field cultivation and hydroponic cultivation, and reflects the advanced development of environmental control technology.

Plant factories are able to produce stable crops throughout the year because crops are grown inside the facility where all environmental conditions are artificially controlled. In addition, since crops are grown and harvested in a systematic production facility, the crops can be standardized and quantified. In addition, it is possible to more quickly replace the cultivated items in response to changes in the consumer demand trend, etc., it is possible to have a much improved market response ability compared to the existing land cultivation.

In Korea, plant factories need to be put to practical use and dissemination in order to realize sustainable food supply due to the limited land and dense population.

Conventional plant plant systems usually have separate facilities for placing the cultivation shelf in the middle of the cultivation room and injecting the culture solution.

However, in this case, a separate operation for a nutrient solution injection facility for injecting nutrient solution into the plant, such as a nutrient solution tank or nutrient solution supply pipe, there is a problem that additional costs for this. In addition, there is a disadvantage that requires a separate space for nutrient storage.

On the other hand, when cultivating several kinds of crops in one floor of the plant factory, the environment of each room, such as the temperature or the type of nutrient solution according to the type of crops should be maintained differently. However, in order to maintain the environment of each room differently, a separate insulation facility is required, and for this purpose, an additional additional cost is required, which makes it difficult to be practical.

The present invention has been proposed in order to solve the conventional problems as described above, and an object thereof is to provide a plant cultivation apparatus that maximizes space utilization while reducing equipment costs.

In another aspect, the present invention is to provide a plant cultivation apparatus that can obtain a thermal insulation effect by minimizing the temperature transfer between a plurality of cultivation room without a separate thermal insulation facility.

As a technical aspect for achieving the above object, the present invention, the nutrient solution storage wall is formed on at least one side wall of the cultivation room in which the plant is grown, the nutrient solution storage space is stored therein; and And a nutrient solution receiving space communicating with the nutrient solution storage space and receiving the nutrient solution contained in the nutrient solution storage space and integrally formed with the nutrient solution storage wall part; and, the nutrient solution storage wall part and the cultivation part It is formed between, the nutrient solution control unit for adjusting the amount of nutrient solution supplied to the cultivation shelf portion; and at least one artificial light source unit for irradiating light to the plant grown in the cultivation shelf portion; provides a plant cultivation apparatus comprising a .

Preferably, the cultivation chamber is composed of a plurality, the nutrient solution storage wall of the plurality of cultivation chamber may be stored in each other kinds of nutrient solution.

Meanwhile, preferably, the artificial light source unit may include a PCB substrate on which a plurality of LEDs are arranged.

Preferably, the redistribution panel may be disposed in a plurality of layers, and the artificial light source unit may be integrally coupled to a lower portion of the redistribution panel.

According to the plant cultivation apparatus according to an embodiment of the present invention, the cultivation shelf in which the plant is grown and the wall of the cultivation chamber are integrally formed, and the nutrient solution is stored in the wall so that the nutrient solution injection facility is not required, so space utilization is not necessary. At the same time, it is possible to reduce the cost of equipment.

In addition, according to one embodiment of the present invention, due to the nutrient solution stored in the wall there is an advantage that can be obtained by minimizing the temperature transfer between a plurality of cultivation chambers without a separate thermal insulation facility.

1 is a perspective view showing a plant cultivation apparatus according to an embodiment of the present invention.
2 is a cross-sectional view showing a plant cultivation apparatus according to an embodiment of the present invention.
3 is a partially enlarged cross-sectional view of FIG. 2.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

First, the embodiments described below are suitable embodiments for understanding the technical features of the plant cultivation apparatus of the present invention. However, the technical features of the present invention are not limited by the embodiments to which the present invention is applied or explained in the following embodiments, and various modifications are possible within the technical scope of the present invention.

Plant cultivation apparatus 100 according to an embodiment of the present invention, as shown in Figures 1 to 3, the nutrient solution storage wall portion 120, the cultivation shelf 130, nutrient solution control unit ( 150 and an artificial light source unit 170.

The nutrient solution storage wall part 120 may be formed on at least one side wall of the cultivation room 110 in which plants are grown, and the nutrient solution storage space 121 may be formed therein.

That is, the nutrient solution storage wall portion 120 has a double wall structure in which a pair of facing inner and outer walls are spaced apart from each other, and a nutrient solution storage space 121 may be formed between the inner and outer walls.

The nutrient solution storage space 121 is formed to penetrate up and down, the inner wall may be an opening of the nutrient solution receiving space 131 of the redistribution panel 130 to be described later.

As such, by storing the nutrient solution supplied to the plant on the wall of the cultivation room 110, a separate nutrient solution storage tank is not required, and thus the space of the cultivation room 110 can be efficiently utilized.

In addition, the nutrient solution storage wall portion 120 may serve as a heat insulator to maintain the temperature of each chamber of the nutrient solution by storing the nutrient solution in the nutrient solution storage space 121. Accordingly, when the cultivation room 110 is formed in plural, the temperature of each cultivation room 110 may be maintained differently, and thus, it may be easier to grow different kinds of plants in each cultivation room 110. .

On the other hand, the redistribution panel 130, the nutrient solution storage space 121 is in communication with the nutrient solution storage space 121 is provided with the nutrient solution contained in the nutrient solution storage space 121, the nutrient solution storage wall portion ( It may be formed integrally with 120.

Plant (P) may be cultivated in the redistribution shelf 130, as shown in the embodiment shown in Figure 1, may be provided in a plurality of layers and columns vertically and horizontally. In this case, the method of cultivating the plant in the cultivation shelf unit 130 may be, for example, hydroponic cultivation, cultivation of the plant using a solid medium or the like.

And, one side of the redistribution panel 130 may be installed to be connected to the nutrient solution storage wall unit 120, the redistribution panel 130 is provided with the nutrient solution receiving space 131 that can accommodate the nutrient solution Can be.

The nutrient solution receiving space 131 is provided to communicate with the nutrient solution storage space 121, the nutrient solution stored in the nutrient solution storage space 121 may be supplied to the nutrient solution receiving space 131 and supplied to the plant. At this time, the nutrient solution storage wall 120 is preferably filled with the amount of nutrient solution to supply the nutrient solution to the redistribution panel 130 of the uppermost layer.

On the other hand, the nutrient solution control unit 150 is formed between the nutrient solution storage wall portion 120 and the redistribution panel 130, it may be provided to adjust the amount of nutrient solution supplied to the redistribution panel 130. have.

That is, the nutrient solution control unit 150 is formed in the opening of the cultivation panel unit 130 formed in the inner wall of the nutrient solution storage wall unit 120, and the cultivation panel unit 130 in the nutrient solution storage wall unit 120. The amount of nutrient solution supplied to the can be adjusted.

At this time, the nutrient solution control unit 150 may be applied without limitation, if it can adjust the nutrient solution supply from the nutrient solution storage wall unit 120 to the redistribution panel 130. For example, a fixed amount supply valve, a valve that is adjusted to open for a predetermined time, and the like may be variously applied, and the control of the medicine adjusting unit may also be automatically or manually adjusted.

On the other hand, the artificial light source unit 170 may be provided with at least one so as to irradiate light to the plant grown in the redistribution panel 130.

At this time, the type of the artificial light source unit 170 is not limited, and if it is possible to supply the amount of light required for the growth of the plant cultivated by the redistribution panel 130, a general fluorescent lamp, incandescent lamp or LED lamp may be variously applied.

On the other hand, the cultivation room 110 is composed of a plurality, the nutrient solution storage wall portion 120 of the plurality of cultivation room 110 may be stored in each other kinds of nutrient solution.

That is, as shown in the embodiment shown in Figures 1 and 2, the plant cultivation apparatus 100 according to the present invention is configured to grow a variety of plants in each cultivation room 110 by forming a plurality of the cultivation room (110) Can be. At this time, the nutrient solution stored in the nutrient solution storage wall portion 120 of the plurality of cultivation room 110 may be stored in different types according to the type of plants grown in the respective cultivation room (110).

For example, referring to FIG. 2, the nutrient solution 10a stored in the nutrient solution storage wall part 120 of the cultivation chamber 110a on the left side is different from the nutrient solution 10b stored in the cultivation chamber 110b on the right side. It can be configured in kind. Accordingly, the nutrient solution may be supplied according to the plants grown in the cultivation chamber 110 on the left side and the cultivation chamber 110 on the right side.

In addition, since the nutrient solution (10a, 10b) stored in the nutrient solution storage wall portion 120 serves to maintain the temperature of each cultivation room (110a, 110b), each of the cultivation room without a separate insulation facility Temperatures 110a and 110b may be maintained. Therefore, it is possible to obtain the effect of maintaining the temperature set for each plant to be cultivated in each cultivation room (110a, 110b).

Meanwhile, the artificial light source unit 170 may include a printed circuit board on which a plurality of LEDs are arranged.

The LED (Light-Emitting Diode) can control the wavelength and the amount of light required for the plant more efficiently than other light sources, thereby enabling the photosynthesis of the plant to be active. The light source unit may be formed by attaching a plurality of such LEDs to a PCB substrate.

In this case, the LED included in the light source unit may include, for example, a white LED, a blue LED, and a red LED. In general, the light source of the plant cultivation device provides the light necessary for photosynthesis and growth of the plant. The plants have different wavelengths of light depending on their type and growth state. Absorbs blue or red and reflects green. Therefore, the plant cultivation apparatus according to the present invention may be configured to include LEDs emitting blue and red light in order to make the best use of the characteristics of the light of the plant and to properly supply color light including the wavelength required by the plant.

However, the artificial light source unit 170 is not limited to a light source unit including a PCB substrate on which the LEDs are arranged, and a light source such as an incandescent lamp, a fluorescent lamp, a halogen lamp, and the like may be variously applied.

On the other hand, the redistribution panel 130 is disposed in a plurality of layers, the artificial light source 170 may be integrally coupled to the lower panel of the redistribution panel 130.

That is, referring to FIGS. 1 and 2, the upper artificial light source unit 170a is integrally coupled to the lower side of the upper redistribution panel unit 130, and the lower redistribution panel unit may be spaced apart from the lower side of the upper artificial light source unit 170a. 130b) may be installed and the lower artificial light source unit 170b may be integrally installed below the lower redistribution panel 130b.

Accordingly, the upper artificial light source unit 170a may provide a heat source to the plant grown in the upper redistribution panel 130a while irradiating a light source to the plant grown in the lower redistribution panel 130b. Accordingly, the plant grown in the upper redistribution panel 130a has an advantage of maintaining an appropriate temperature for photosynthesis.

However, the uppermost artificial light source unit 170 may be provided on the ceiling to irradiate the light source to the redistribution panel 130 of the uppermost layer, the artificial light source unit 170 is not coupled to the lower of the redistribution panel 130 of the lowermost layer. You may not.

While the invention has been shown and described in connection with specific embodiments so far, it will be appreciated that the invention can be variously modified and varied without departing from the spirit or scope of the invention as set forth in the claims below. It will be appreciated that those skilled in the art can easily know.

100: plant cultivation apparatus 110: cultivation room
120: nutrient solution storage wall portion 130: cultivation shelf portion
133: support frame 150: nutrient solution
170: artificial light source

Claims (4)

A nutrient solution storage wall part formed on at least one side wall of the cultivation room in which the plant is grown, and the nutrient solution storage space in which the nutrient solution is stored therein;
A redistribution unit having a nutrient solution receiving space in communication with the nutrient solution storage space and supplied with the nutrient solution contained in the nutrient solution storage space, and integrally formed with the nutrient solution storage wall part;
A nutrient solution control unit which is formed between the nutrient solution storage wall part and the redistribution shelf and controls the amount of the nutrient solution supplied to the redistribution shelf; And
At least one artificial light source unit for irradiating light to the plant grown in the cultivation shelf portion;
Plant cultivation apparatus comprising a.
The method of claim 1,
The cultivation room is composed of a plurality, plant cultivation device, characterized in that the nutrient solution storage wall of the plurality of cultivation rooms are stored in each other kinds of nutrient solution.
The method of claim 1,
The artificial light source is a plant cultivation device, characterized in that it comprises a PCB substrate arranged a plurality of LEDs.
4. The method according to any one of claims 1 to 3,
The redistribution panel is arranged in a plurality of layers,
The artificial light source is a plant cultivation device, characterized in that integrally coupled to the lower portion of the redistribution panel.

Images