KR20220146285A - Plant factory with solar control method - Google Patents

Abstract

The present invention relates to a solar ray control-type hybrid plant factory that helps plant growth while saving lighting power by reflecting solar rays with a skylight passing solar rays and a reflection plate on one side to evenly distribute the rays inside a facility. The solar control-type hybrid plant factory of the present invention comprises: a facility separable from the external environment; a skylight openable and closeable on the ceiling of the facility; a roof hatch blocking or opening the skylight to control sunlight; a reflection plate installed on the surface of the roof hatch facing the inside of the facility to reflect and diffuse solar rays to the inside of the facility; lighting that emits light to plants in place of solar rays when the roof hatch is closed; a floor opening part drilled on the floor of the facility so that plants such as tall fruit trees are planted directly on the ground in contact with the floor of the facility; and a floor hatch closing the floor opening part when not in use.

Description

Plant factory with solar control method}

The present invention relates to a method for growing crops indoors, and to a method for evenly irradiating sunlight as a method for rapidly and stably growing crops, and to a plant factory that saves energy required for operation through this method.

The present human race is living in an era of unprecedented population expansion. In addition, as the population increases, more environmental destruction and environmental pollution are caused, and various attempts are being made due to anxiety about the future food.

In addition, demographic changes such as a decrease in the influx of new farmers and an aging rural population and urban concentration are shaking the foundation of food production.

In order to solve the above problems, humans are promoting genetic manipulation, seed protection, scientificization and automation of agriculture, and are trying to solve future anxiety. Each government is actively developing plant factory technology by combining the convergence technology of ICT (information and communication) technology to improve efficient operation capabilities and policies to foster farmers into professional agricultural managers through education.

A common plant factory uses a method of installing LEDs instead of sunlight in a building or container, and uses a pump that supplies moisture and nutrient solution, a blower that generates airflow, a ventilator that ventilates, and devices for cooling and heating. will be used

Of the above devices, lighting and heating and cooling use the most energy, and most of them use electricity as an energy source, and energy cost is an important variable that lowers the business viability of a plant factory and makes stable operation difficult.

Therefore, there is an urgent need for a method that can provide efficient management and energy-saving facilities to consumers who disseminate them.

The present invention provides an optimal environment for plants to grow, can overcome cold and heat with little energy, and is independent or isolated from the external environment in which pesticides or fertilizers can be used to a minimum, an eco-friendly cultivation method It is intended to provide

In addition, it enables safe and stable food supply from unpredictable natural disasters, enables planned and predictable agriculture, and at least prevents human starvation and starvation through treatment and relief. It aims to lower the social cost incurred.

However, the technical problems to be achieved by the present embodiment are not limited to the technical problems described above, and other technical problems may further exist.

As an embodiment of the present invention for achieving the above object, it is applicable to facilities such as a container type structure or a building type that can be isolated from the external environment, and for ease of explanation, hereinafter referred to as a structure.

The structure includes one or more openings at an upper portion thereof, each opening is opened and closed by an opening and closing device capable of opening and closing, and at least one side of the opening and closing device is reinforced with a material of a material including elasticity to be in close contact.

The inside of the opening and closing device includes a reflector or film, painting, etc. installed to illuminate a desired part inside the facility by changing the angle of the angle of incidence of sunlight, changing the angle of light or scattering it to serve as illumination.

A light pipe with high reflectivity and various light transmission methods are applied to a portion connecting the opening and closing device and the inside to connect the outside and the inside.

In addition, a number of lighting fixtures such as direct lighting, indirect lighting, and diffuse lighting are provided in the interior to suit the purpose.

A support structure including means such as a wheel or a conveyor capable of arranging crops and moving according to the purpose is provided inside the structure.

In addition, including an opening in the lower part of the structure, it includes a structure that can be planted directly on the land, or implement a technical method using geothermal heat.

The present invention relates to a plant factory that has developed a plant factory or smart farm form from the viewpoint of energy saving and operating cost reduction by using ICT (information and communication) technology in existing agriculture, improving agricultural productivity, and producing high value-added crops. Through safe cultivation, it has the effect of guaranteeing stable profits for farmers.

In addition, because the growing environment can be properly maintained and managed, high-quality food can be produced in a planned manner, and it can be harvested several times a year. there is

In addition, the movable support structure has the effect of minimizing the labor required for cultivation by changing the location according to the growth state of the crop or moving it to the outside for management or harvesting to work in a wide area.

In addition, the independent support structure has the effect of individually applying essential elements for growth, such as temperature maintenance, lighting, and thermal insulation required for the growth of crops.

In addition, the collaboration of lighting used with sunlight can minimize the energy required for crop growth and minimize the space for securing light required for individual crops to grow without interfering with each other. have.

In addition, direct sunlight irradiation increases the stiffness of the leaves, which has the effect of enhancing the chewiness that cannot be felt in the existing LED lighting method.

The present invention minimizes manpower in cultivation management, post-harvest distribution, consumption, etc., in a rural situation where there is a shortage of labor due to urban migration of young people and decreases in productivity due to the aging of farmers It has the effect of being able to provide fresh, inexpensive, and fast food to consumers in a stable and planned manner, while minimizing it.

1 is an exemplary view of a solar control system plant factory 1 according to an embodiment of the present invention.
2 is a cross-sectional view of a solar control system plant factory 1 according to an embodiment of the present invention.
3 is an exemplary view showing the light diffusion from the lighting included in the roof hatch 10 of the solar control method plant factory 1 according to an embodiment of the present invention.
4 is an exemplary view showing the reflection and diffusion of sunlight 40 in the roof hatch 10 of the solar control method plant factory 1 according to an embodiment of the present invention.
5 is an exemplary view visualized when the solar light 40 is irradiated to the solar control method plant factory 1 according to an embodiment of the present invention, the light is diffused into the plant factory.
6 is an exemplary view of diffusing the internal light source of the solar control method plant factory 1 according to an embodiment of the present invention.
7 is an exemplary view showing a method of cultivating a plant having a large size inside the solar control method plant factory 1 according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiment of the present invention may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below.

In addition, the embodiments of the present invention are provided in order to more completely explain the present invention to those of ordinary skill in the art.

1 is a perspective view of a solar control system plant factory 1 according to an embodiment of the present invention as viewed from the outside. There is a roof hatch (10) on the ceiling of the plant factory that can completely cover the window with a skylight (2), so that the window is covered or opened according to the situation to control the light from outside entering the plant factory. To this end, the roof hatch 10 is formed such that one side is fixed to the rotating shaft, the tile side is opened and the window is opened, and the direction of the open side is basically installed to face the south facing the sun based on the northern hemisphere, but depending on the conditions, the skylight Choose an effective method by changing the direction and size of (2).

2 is a cross-sectional view for explaining a solar control method plant factory 1 according to an embodiment of the present invention. According to an embodiment of the present invention, in the solar control system plant factory (1), in addition to various internal facilities necessary for plant cultivation, a skylight (2) that can receive external light into the plant factory and completely cover it to block light or a roof hatch (10) that opens at an appropriate angle to allow light to pass through, a reflection and diffusion part (11) formed on one side of the cover facing the plant factory, and an actuator that allows you to open and close the cover at a desired angle (12), a hinge 13 that allows one side of the cover to be fixed to the ceiling of the plant factory to form the angle of the cover and a floor opening 20 in the floor of the plant factory to grow large plants inside the plant factory, unnecessary In this case, it is composed of a floor hatch 21 that blocks the floor opening 20 and a rail 22 that serves as a guide so that the wheels 26 of the shelf 25 on which the cultivated plants are mounted can move correctly.

3 is an exemplary view illustrating that the illumination light included in the roof hatch 10 of the solar control method plant factory 1 according to an embodiment of the present invention is diffused. Under the roof hatch 10, there is a reflective plate 45 and a light source 41, and a transparent diffuser 46 of a curved surface made of a material such as transparent plastic, acrylic, or glass is formed around the light source to form a light source 41. The light generated from the plant is widely diffused inside the plant factory by the refraction of light.

FIG. 4 is an example of visualizing the diffusion of light into the plant factory when the solar light 40 is irradiated to the real factory 1 of the solar control method according to an embodiment of the present invention. The reflection and diffusion unit 11 composed of the reflection plate 45 and the transparent diffuser 46 formed on the lower side of the roof hatch 10 reflects and refracts the sun light 40 and diffuses it widely inside the plant factory.

5 is a plant factory using a solar control method plant factory 1 and a non-reflecting plate roof hatch 30 according to an embodiment of the present invention when solar light 40 is irradiated to the inside of the plant factory It is a comparative diagram comparing the visualization. In the plant factory on the left of the drawing, when the non-reflecting plate roof hatch 30 is used, only the sun light 40 through the skylight 2 is directly irradiated and only one side of the inside of the plant factory is irradiated. At this time, the plants that are not in the path of the irradiated sun cannot receive the sun light 40, so that the deviation of the amount of light received by all plants in the plant factory becomes large. However, using the roof hatch 10 including the curved reflection and diffusion portion 11 according to the embodiment of the present invention, not only the sunlight 40 through the skylight 2 but also the reflection and diffusion portion 11 ), the light irradiated into the plant factory is widely diffused inside the plant factory according to the angle at which the sun light 40 is reflected on the reflection and diffusion unit 11, and the amount of light received by all plants inside the plant factory will reduce the variance.

6 is an exemplary view of diffusing the internal light source of the solar control method plant factory 1 according to an embodiment of the present invention. When the skylight (2) is covered with the roof hatch (10) to block external light, as in the plant factory on the left of the drawing, direct use indoor light source (50) is used to illuminate the cultivated plants. receives only light emitted from a narrow angle, and the angle of the light is inevitably narrow. Light is applied to the part 11 to receive reflected and diffused light.

7 shows a method of cultivating a plant having a large size inside the solar control system plant factory 1 according to an embodiment of the present invention. A plant such as a fruit tree 60 having a large size or root may have a narrow space to grow in a plant factory where space is limited. However, if, according to an embodiment of the present invention, the floor hatch 21 of the plant factory floor is removed and the plant is directly planted on the ground 70 through the floor opening 20, compared to using the space in the plant factory, the The height of the plants above the height can be lowered, so that more diverse plants can be cultivated.

1. Solar Controlled Plant Factory
2. Skylight
10. Roof hatch 11. Reflection and diffuser
12. Actuator 13. Hinge
20. Floor opening 21. Floor hatch
22. Rail
25. Lathe 26. Wheels
30. Anti-reflective roof hatch
40. Solar light 41. Light source
45. Reflector 46. Transparent diffuser
50. Direct use indoor light source
51. Reflective indoor light source
60. Loss 70. Ground

Claims (10)

Hollow structures of polyhedral structures such as spherical or cylindrical and rectangular parallelepipeds;
The hollow structure may include materials such as durable soil, brick, ceramic, and stone that meet external loads and impacts;
a structure including one or more openings at an upper portion of the structure or at one side of the structure;
The opening includes a manual, electric or mechanical opening and closing device, the structure in close contact with the structure in a closed state;
a structure in which a reflecting plate or a light diffusion film is attached or fixed to the inside of the opening and closing device;
Plant factory of a structure including a lighting fixture on one side of the hollow structure
in paragraph 1
A plant factory comprising a structure separating the inside and the outside with a transparent or opaque partition wall made of glass or plastic at the lower end of the opening of the structure, the opening and closing structure
in paragraph 1
A plant factory comprising an acrylic lens structure including a reflecting plate or a light diffusing film inside the structure, the opening and closing device.
in paragraph 1
The structure is a plant factory of a structure including one or more entrances
in paragraph 1
A plant factory comprising an insulating structure in the form of inserting or attaching a thermal insulation inside or outside the structure.
in paragraph 1
A plant factory of a structure in which a reflector is installed on the inside of the structure and the opening and closing device, and a lighting device is installed on one side in paragraph 1
A lighting device is installed on one side of the reflector inside the opening and closing device, and the plant factory has a structure that covers one or more acrylic lenses. in paragraph 1
A plant factory comprising a sensor for detecting a carbon dioxide concentration in the structure, and a method and a device for controlling an appropriate carbon dioxide supply method. in paragraph 1
A plant factory including an air conditioner, a constant temperature and humidity device, and a control device for controlling the same inside the structure.
in paragraph 1
A plant factory of a structure including a blinder for controlling sunlight and temperature on one side of the structure, such as inside or outside of the opening.

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