KR101346805B1 - The plant cultivation equipment using a sealed pots - Google Patents

Abstract

The present invention relates to a plant cultivation apparatus using a sealed port, which has been developed to reduce facility and operating costs by granting independent environmental conditions based on the minimum size required for plant growth;
In a plant cultivation system for growing plants by supplying water and nutrients necessary for their own lighting and growth in a closed area;
A crop is planted on the upper surface, and a hair growth port in which a plurality of holes are formed on the side, and the upper surface is opened so that the hair growth port is seated, but a space is formed between the inner surface and the bottom surface, and the nutrient solution penetrates the side surface. A lower port through which the nutrient solution outlet penetrates adjacent to the inlet and the bottom surface, and a bottom surface is opened and coupled to the upper portion of the lower port, and a perforated air inlet and an air outlet are respectively provided on the side adjacent to the top and the side adjacent to the bottom. A plurality of sealed ports including an upper port formed at an inner ceiling and having an LED lamp mounted at an upper surface thereof, and an upper port formed at a top thereof for connecting a power to the LED lamp;
A mounting shelf for mounting the plurality of hermetic ports;
Using a sealed port comprising a water tank and a supply control device having a carbon dioxide tank and supplying water and carbon dioxide containing water and nutrient solution to each sealed port mounted on the mounting shelf. It relates to a plant growing device.

Description

The plant cultivation equipment using a sealed pots

The present invention relates to a plant cultivation apparatus using a sealed port, which will be described in more detail. The sealed port developed to give independent environmental conditions in units of the minimum size required to grow a plant can be used to reduce facility and operating costs. It relates to a plant growing apparatus used.

In recent years, the production of various agricultural products has sharply decreased, so that the price may increase from several times to several tens of times, or the shortage occurs. Most of the causes are dependent on the cultivation of open field, which is mostly caused by climate change and pests.

In particular, climate change occurs in various forms such as lack of sunshine, drought, torrential rain, and abnormal high temperatures, which are thought to be caused by global warming, and also caused by pests or abnormal growth of certain pests.

In order to solve these problems, planting crops in an enclosed space, such as a vinyl house, can easily solve the climate-related problems. It has the advantage of being easy.

It is no longer the concept of a house, but a factory-based production system that produces crops by artificially controlling and controlling all environmental conditions necessary for plant culture, such as light, temperature, humidity, air (carbon dioxide concentration), water, and nutrients, within a certain facility. One farming method is also very popular.

The advantages of these plant plants, namely plant plants, are to ensure stable production throughout the year, standardization and quantification of cultivated crops, and active and planned production control in response to market supply and demand, compared to existing farming methods. There is an advantage that the replacement of cultivated items can be made more easily in response to changes in demand trends.

However, the cultivation by the plant plant has a problem that the facility for artificially controlling all environmental conditions has to be invested enormous facility cost compared to the existing vinyl house cultivation method.

In addition, the cost of energy input to maintain all environmental conditions including the required temperature is so high that the price of the product is too expensive except for a few crops, which are not available or difficult to grow. .

(Patent Document 1) Korean Utility Model Registration No. 20-0455827-0000 (September 21, 2011) (Patent Document 2) Korean Patent Registration No. 10-0785930-0000 (December 7, 2007) (Patent Document 3) Korean Patent Publication No. 10-2011-0014934 (February 14, 2011) (Patent Document 4) Korean Utility Model Publication No. 20-2012-0000634 (January 30, 2012) (Patent Document 5) Korean Patent Registration No. 10-0512378-0000 (August 27, 2005)

The present invention was developed to solve the above problems, the purpose is to provide a closed port to grow in an independent environment in small units, rather than cultivating a large amount of existing plants in the same environment in a given space. It is to develop the used plant cultivation apparatus.

In order to achieve the above object, the present invention provides a plant cultivation apparatus for growing plants by supplying water and nutrients necessary for its own lighting and growth in a closed area;

A crop is planted on the upper surface, and a hair growth port in which a plurality of holes are formed on the side, and the upper surface is opened so that the hair growth port is seated, but a space is formed between the inner surface and the bottom surface, and the nutrient solution penetrates the side surface. A lower port through which the nutrient solution outlet penetrates adjacent to the inlet and the bottom surface, and a bottom surface is opened and coupled to the upper portion of the lower port, and a perforated air inlet and an air outlet are respectively provided on the side adjacent to the top and the side adjacent to the bottom. A plurality of sealed ports including an upper port formed at an inner ceiling and having an LED lamp mounted at an upper surface thereof, and an upper port formed at a top thereof for connecting a power to the LED lamp;

A mounting shelf for mounting the plurality of hermetic ports;

It is characterized in that it comprises a water tank, a supply control device having a carbon dioxide tank and supplying air containing water and carbon dioxide to each sealed port mounted on the mounting shelf and the power and nutrient solution.

delete

delete

delete

In addition, a transparent insulating partition wall is formed on the inner upper portion of the upper port to be spaced apart from the LED lamp, characterized in that at least one through hole penetrating upward from the insulating partition wall is formed.

In addition, the mounting shelf is formed to form a plurality of layers in a state in which the plurality of first port seating grooves in which the sealed port is seated horizontally, the nutrient solution injection pipe, nutrient solution discharge pipe, air injection pipe and air discharge pipe and The power connection line is characterized in that it is formed to extend horizontally long in each layer.

In addition, the supply control device includes a body, a water tank, a carbon dioxide tank, a nutrient solution tank and a recovery liquid tank fixedly mounted on the top and side of the body, the front panel is provided with an operation panel;

The outside air and carbon dioxide supplied from the carbon dioxide tank are mixed and supplied to the air injection pipe, the water in the water tank and the nutrient solution in the nutrient solution tank are supplied to the nutrient solution injection pipe, and the water mixed with the nutrient solution discharged by the nutrient solution discharge pipe is Characterized in that configured to be stored in the recovery liquid tank.

In addition, the supply control device may sterilize the first and second thermoelectric elements and sterilization, which can be adjusted to a set temperature before the air and the nutrient solution injection pipe, respectively, the nutrient solution mixed water and the carbon dioxide mixed air is supplied. It further comprises a first and second ultraviolet sterilization unit.

As described above, the present invention enables one or a small amount of plants to grow in different enclosed spaces, thereby drastically reducing facility costs or energy consumption rates to create an environment for plants to grow throughout the room, thereby reducing facility maintenance costs. It is effective to produce high quality and low cost plants.

1 is an external view showing a cultivation apparatus according to an embodiment of the present invention
2 is a perspective view showing a sealed port according to an embodiment of the present invention
3 is a cross-sectional view showing a sealed port according to an embodiment of the present invention
4 is a perspective view showing an example of a mounting shelf according to an embodiment of the present invention
5 is a perspective view showing a supply control apparatus according to an embodiment of the present invention;
Figure 6 is a rear perspective view showing a supply control device according to an embodiment of the present invention
7 is a block diagram showing a control process according to an embodiment of the present invention.
8 is a block diagram showing a cultivation method according to another embodiment of the present invention.
9 is a perspective view showing a hair growth box according to another embodiment of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an external view showing a cultivation apparatus according to an embodiment of the present invention, in a plant cultivation apparatus for supplying water and nutrients required for its own lighting and growth in a closed area to grow plants;

A plurality of sealed ports (1) having a space where plants grow inside and an LED light on the inner top and closed on all sides;

A mounting shelf (2) for mounting the plurality of hermetic ports (1);

A water tank 31 and a carbon dioxide tank 32 are provided to supply air containing water and carbon dioxide, including water and nutrient solution, to each sealed port 1 mounted on the mounting shelf 2. The plant cultivation apparatus using a closed port is characterized by consisting of a control device (3).

Previously, there was a system in which a condition such as temperature, humidity, and lighting required for an entire indoor space was grown to grow crops internally, and nutrients or water were supplied to be absorbed through the lower roots.

However, the biggest feature of the present application is to control the environment of the entire indoor space is expensive for this purpose and the energy consumption to maintain the environment as the space is large, so the environmental conditions that are limited to each sealed port (1) only This will reduce plant costs and grow crops with minimal energy.

In addition, the supply control device (3) can be provided in a relatively small size compared to the system that was conventionally planted crops, so that the mobility is good enough to be applied to places such as ships, it can be applied in extreme areas, such as desert or large area Has the advantage.

In this case, the carbon dioxide may be made of a boom as in the shape of the carbon dioxide tank 32 in the drawing or may be provided by a separate carbon dioxide generator.

2 is a perspective view showing a sealed port according to an embodiment of the present invention, Figure 3 is a cross-sectional view showing a sealed port according to an embodiment of the present invention, the sealed port 1 has a crop body 111 on the upper surface Is planted, the hair growth port 11 is formed with a plurality of through holes 112 on the side;

The upper surface is opened so that the hair growth port 11 is seated, but a space is formed between the inner surface and the bottom surface, and the nutrient solution inlet 121 penetrates the side surface and the nutrient solution outlet 122 penetrated adjacent to the bottom surface. Bottom port 12 is formed;

The bottom is opened and coupled to the upper portion of the lower port 12, the side adjacent to the top and the side adjacent to the bottom is formed through the air inlet 131 and the air outlet 132, respectively, LED on the inner ceiling surface The lamp 133 is mounted, and the upper surface is composed of an upper port 13 formed with a power connection portion 134 for connecting the power to the LED lamp 133.

In the above embodiment, each of the sealed ports 1 has a form of forcibly injecting and discharging air containing nutrient solution and carbon dioxide containing nutrient solution in a state in which the sealed port 1 is closed from an external environment ( You can see that 1) has an independent environment.

This prevents mutual transmission from pests, so only those affected by pests need to be discarded, thereby stably increasing productivity.

At this time, in the present invention, a transparent insulating partition 135 is formed on the inner upper portion of the upper port 13 to be spaced apart from the LED lamp 133 is further formed, at least one through hole penetrating upward from the insulating partition 135 An example in which 136 is further formed is shown.

Although the embodiment has a relatively low heat generation of the LED, the heat generation adversely affects the plant, so that the insulating barrier rib 135 for blocking the heat and the through hole 136 for escaping heat are formed.

4 is a perspective view showing an example of a mounting shelf according to an embodiment of the present invention, wherein the mounting shelf 2 has a plurality of first port seating grooves 21 in which the sealing port 1 is seated horizontally. It is formed to form a plurality of layers in an arranged state, the nutrient solution injection pipe 22, the nutrient solution discharge pipe 23, the air injection pipe 24, the air discharge pipe 25 and the power connection line 26 is horizontal for each layer An example of extending to form is presented.

In the drawings, the mounting shelf (2) for the relatively small scale is shown, but for large-scale cultivation, it is possible to change to various shapes, and an embodiment in which the closed port (1) is positioned in a double layer will be the most basic matter. will be.

In addition, although only the nutrient solution injection pipe 22, the nutrient solution discharge pipe 23, the air injection pipe 24, the air discharge pipe 25, and the power connection line 26 are illustrated in the drawings, the corresponding first port seating grooves ( It is preferable to form a connection hose having a line extending in the direction of 21) to be easily coupled to each connector of the hermetic port 1.

At this time, the connection hose is preferably provided with a valve for each control.

5 is a perspective view showing a supply control device according to an embodiment of the present invention, Figure 6 is a rear perspective view showing a supply control device according to an embodiment of the present invention, the supply control device 3 is a body 33 ), And a water tank 31, a carbon dioxide tank 32, a nutrient solution tank 34, and a recovery liquid tank 35 fixedly mounted on upper and side surfaces of the body 33, and an operation panel 36 on the front upper part. );

The outside air and carbon dioxide supplied from the carbon dioxide tank 32 are mixed and supplied to the air injection pipe 24, and the water of the water tank 31 and the nutrient solution of the nutrient solution tank 34 are mixed to the nutrient solution injection pipe 22. The water mixed with the nutrient solution discharged to the nutrient solution discharge pipe 23 is configured to be stored in the recovery liquid tank 35.

Detailed description of the supply control device 3 will be described in more detail in the following description of FIGS. 8 to 9.

7 is a block diagram showing a control process according to an embodiment of the present invention, Figure 8 is a block diagram showing a cultivation method according to another embodiment of the present invention, Figure 9 is a hair growth according to another embodiment of the present invention As a perspective view of the container, in the present application, the bottom and side are closed and a plurality of second port seating grooves 41 are formed on the upper surface, and the nutrient solution to supply and discharge the nutrient solution therein at each side corresponding to one side and the other side. It is further provided with a hair growth box 4 in which a passage 42 is formed.

In this case, the seed is planted in the hair growth port 11 and then mounted on the hair growth box 4 to germinate the seeds, and the seed growth germination port 11 is mounted inside the sealed port 1. To the mounting shelf (2), the process of cultivating by the supply control device (3), and the process of harvesting, packing and selling the crop is carried out in this application for the hair growth port (11) It is a way to increase the reliability and maintain freshness if the product is sold without being removed even at the time of sale.

In addition, if the germination process by the hair growth box (4) in a large facility in the process of transferring to the cultivation system is made, it is also possible to apply the system to put it in the sealed port (1) to supply to each unit producer.

Since the sealed port 1 and the hair growth port 11 is to be reused by washing and disinfection.

At this time, the role of the supply control device 3 in the present application to the air injection pipe 24 and the nutrient solution injection pipe 22 can be adjusted to the temperature set before the water and the carbon dioxide mixed air is mixed, respectively First and second ultraviolet sterilizers 38a and 38b which pass through the first and second thermoelectric elements 37a and 37b to impart favorable temperature conditions to growth and can be sterilized using an ultraviolet lamp or the like. It is desirable to provide additionally to prevent from pests.

At this time, the water and air discharged from the nutrient solution outlet 122 and the air outlet 133 has a sensor 39 for detecting a variety of conditions such as temperature, electrolytic degree, and transmits the measurement result to the supply control device (3) Application of the embodiment to easily grasp and adjust the internal environment is also possible.

In addition, the sealing port (1) after removing the hair growth port (11) is capable of disinfecting the sealing port (1) by allowing the high temperature steam generated by heating the water in the water tank (31) to the inside. Will be.

In addition, in the case of the first thermoelectric element 37a, when the air is supplied at a relatively low temperature by changing the polarity, rather than heating the air at a constant temperature, the tissue of the crop that grows at a relatively low temperature is not dense and hard. As it grows, it is possible to realize a cold and hot growing environment of crops at low cost.

1: sealed port
11: hair growth port
111: crop 112: through hole
12: Lower port
121: nutrient solution inlet 122: nutrient solution outlet
13: upper port
131: air inlet 132: air outlet
133: LED lamp 134: power connection
135: insulation bulkhead 136: through hole
2: mounting shelf
21: first port seating groove 22: nutrient solution injection pipe
23: nutrient solution discharge pipe 24: air injection pipe
25 air exhaust pipe 26 power supply line
3: Supply control device
31: water tank 32: carbon dioxide tank
33: body 34: nutrient solution tank
35 recovery liquid tank 36 operation panel
37a: first thermoelectric element 37b: second thermoelectric element
38a: First ultraviolet sterilizer 38b: Second ultraviolet sterilizer

Claims (6)

delete In a plant cultivation system for growing plants by supplying water and nutrients necessary for their own lighting and growth in a closed area;
Crop 111 is planted on the upper surface, the nursery port 11 and a plurality of through-holes 112 are formed on the side, and the upper surface is open so that the nursery port 11 is seated, but the inner and bottom surfaces A space is formed between the lower port 12 through which the nutrient solution inlet 121 penetrating the side and the nutrient solution outlet 122 penetrated adjacent to the bottom surface, and the bottom surface is opened to the bottom of the lower port 12 The air inlet 131 and the air outlet 132 are formed on the side adjacent to the top and the side adjacent to the top and the bottom adjacent to each other, and the LED lamp 133 is mounted on the inner ceiling and the LED lamp ( A plurality of hermetic ports 1 composed of an upper port 13 on which a power connection portion 134 is formed so as to connect power to the 133;
A mounting shelf (2) for mounting the plurality of hermetic ports (1);
A water tank 31 and a carbon dioxide tank 32 are provided to supply air containing water and carbon dioxide, including water and nutrient solution, to each sealed port 1 mounted on the mounting shelf 2. Plant cultivation apparatus using a closed port, characterized in that consisting of a control device (3).
According to claim 2, wherein the inner upper portion of the upper port 13 is a transparent insulating partition 135 is formed to surround the LED lamp 133 is further formed, the one penetrating upward from the insulating partition 135 Plant cultivation apparatus using a sealed port characterized in that the through hole 136 is further formed.
According to claim 2, The mounting shelf (2) is formed so as to form a plurality of layers in a state in which the plurality of first port seating grooves 21 on which the sealing port (1) is horizontally arranged, nutrient solution injection pipe (22) and the nutrient solution discharge pipe 23, the air injection pipe 24, the air discharge pipe 25 and the power supply line 26 is formed to extend horizontally long in each layer, plant cultivation apparatus using a sealed port.
5. The supply control device (3) according to claim 4, wherein the supply control device (3) includes a body (33), a water tank (31), a carbon dioxide tank (32), and a nutrient solution tank (34) fixedly mounted on upper and side surfaces of the body (33). And a recovery liquid tank 35, and an operation panel 36 is provided on the front upper portion;
The outside air and carbon dioxide supplied from the carbon dioxide tank 32 are mixed and supplied to the air injection pipe 24, and the water of the water tank 31 and the nutrient solution of the nutrient solution tank 34 are mixed to the nutrient solution injection pipe 22. Supplying, the nutrient solution discharged to the nutrient solution discharge pipe 23 is mixed with water plant cultivation apparatus using a closed port, characterized in that configured to be stored in the recovery liquid tank (35).
6. The supply control device (3) according to claim 5, wherein the supply control device (3) can be adjusted to a temperature set before supplying the air mixed with the nutrient solution and the air mixed with the carbon dioxide to the air injection pipe (24) and the nutrient solution injection pipe (22). The first and second thermoelectric elements (37a, 37b) and the first and second ultraviolet sterilization unit (38a, 38b) capable of sterilization further comprising a plant cultivation apparatus using a sealed port.

Images