KR102479246B1 - A mulberry tree smart farm intensive cultivation system - Google Patents

Abstract

The present invention relates to a mulberry smart farm dense cultivation system, and more specifically, as a mulberry smart farm dense cultivation system, a greenhouse forming a growth space for dense cultivation of mulberry trees; an environmental sensor unit having sensors for detecting internal environmental information for dense cultivation of mulberry trees planted in the growth space inside the greenhouse; an external environment sensor unit provided outside the greenhouse and sensing external environment information such as temperature, humidity, wind direction/speed, rainfall, and solar radiation; a drive unit for creating a growth environment for dense planting of mulberry trees by supplying water, supplying nutrient solutions, circulating air, and maintaining a preset temperature required for dense planting of mulberry trees planted in the greenhouse; an image device unit for real-time monitoring of the densely planted mulberry planting state inside the greenhouse; an integrated control device unit controlling driving of the environment sensor unit, the external environment sensor unit, the driving device unit, and the imaging device unit; And a mulberry dense planting management server that links with the integrated control device unit to database and monitors and manages environmental information collected for dense cultivation of mulberry trees planted in the growth space inside the greenhouse. do.
According to the mulberry smart farm dense cultivation system proposed in the present invention, an environmental sensor unit having sensors for detecting internal environmental information for dense cultivation of mulberry trees planted in a growth space inside the greenhouse, Provided outside the greenhouse, The external environment sensor unit detects external environmental information such as temperature and humidity, wind direction/speed, rainfall, and solar radiation, and maintains water supply, nutrient solution supply, air circulation, and preset temperature required for dense cultivation of mulberry trees planted inside the greenhouse Driving device unit for creating a growth environment for dense cultivation of mulberry trees, video device unit for real-time monitoring of the dense cultivation of mulberry trees in the greenhouse, environment sensor unit, external environment sensor unit, driving device unit and imaging device unit Including an integrated control device unit that controls and a mulberry dense planting management server that links with the integrated control device unit to database and monitors and manages environmental information collected for dense cultivation of mulberry trees planted in the growth space inside the greenhouse. By configuring it, the growth environment of the mulberry planted in the greenhouse for dense cultivation of the mulberry tree is automatically adjusted to increase the production of the mulberry tree and minimize labor force, and to enable the maintenance of the smart farm in the growth environment according to the dense cultivation of the mulberry tree. can
In addition, according to the mulberry smart farm dense cultivation system of the present invention, through automated dense cultivation in the growth space of the greenhouse, the production per unit area is increased compared to the mulberry tree grown in the existing open field, as well as through eco-friendly management of the greenhouse It is possible to produce safe mulberry leaves and improve quality, thereby increasing farm household income and revitalizing the local economy.

Description

Mulberry smart farm dense cultivation system {A MULBERRY TREE SMART FARM INTENSIVE CULTIVATION SYSTEM}

The present invention relates to a mulberry smart farm dense cultivation system, and more specifically, by planting mulberry trees in a greenhouse forming a growth space, automatically adjusting the mulberry growth environment to increase mulberry production and minimize labor force It relates to a mulberry smart farm dense cultivation system that enables smart farm maintenance and management of the growth environment according to the dense cultivation of mulberry trees.

Mulberry trees cultivated in Korea have been cultivated for raising silkworms since ancient times, and according to the shape of mulberry leaves used as food for silkworms, three species of mountain top, white top, and road top are cultivated, and among them, white top is known to be cultivated the most. Most of these mulberry trees are planted in the open field, and there are disadvantages in that production costs are high and productivity is low due to the aging of agricultural labor force and increase in wages. In particular, 100% of the mulberry leaves of the mulberry tree are not well known compared to their superiority as 100% of the mulberry leaves are in low demand, but as the excellence of the components of the mulberry leaves is known, development into various food groups is required.

In other words, mulberry leaves of the mulberry tree activate 5-16% of lipase, an enzyme that decomposes fat, to promote lipolysis and prevent fat from reaching peripheral tissues, so it is excellent in reducing low-density cholesterol (LDL) levels in modern people. Eating mulberry leaves has a very great effect on arteriosclerosis, as it lowers cholesterol and neutral fat. Therefore, it was developed as a wrap vegetable using chammul leaves, and it has the effect of lowering cholesterol in the blood for modern people who eat a lot of meat, the effect on arteriosclerosis, the effect on stroke (paralysis), the effect of clearing and flowing the blood, and the bowel movement. It can provide a good effect. In other words, 50 kinds of various inorganic components were analyzed as functional components in mulberry leaves. In particular, calcium (Ca), potassium (K), and iron (Fe) are very high in content, and 21 amino acids such as methionine are present. It was confirmed that there were 59 kinds of organic components such as Kuwanon.

However, most of the mulberry leaves of the mulberry tree are used only as food for silkworms, and in an environment where they are grown in the open field, a lot of labor and time are required, and there are problems in maintaining productivity and uniform quality. Korean Patent Registration No. 10-1639558 discloses a mulberry cultivation method as a prior art document.

The present invention has been proposed to solve the above problems of the previously proposed methods, and an environment sensor unit having sensors for detecting internal environmental information for dense cultivation of mulberry trees planted in a growth space inside a greenhouse; An external environment sensor unit provided outside the greenhouse and detecting external environmental information such as temperature, humidity, wind direction/speed, rainfall, and solar radiation, and water supply, nutrient solution supply, air circulation, And a driving device unit for creating a growth environment for dense cultivation of mulberry trees by maintaining a preset temperature, a video device unit for real-time monitoring of the dense cultivation of mulberry trees in the greenhouse, an environment sensor unit, an external environment sensor unit, and a driving device An integrated control device unit that controls the driving of the unit and the video device unit, and a mulberry tree that collects environmental information for dense cultivation of mulberry trees planted in the growth space inside the greenhouse in conjunction with the integrated control unit unit, and monitors and manages the database. By including the dense planting management server, the growth environment of mulberry trees planted in the greenhouse is automatically adjusted for dense planting of mulberry trees, thereby increasing the production of mulberry trees and minimizing labor force, and growing environment according to dense planting of mulberry trees Smart farm Its purpose is to provide a mulberry smart farm dense cultivation system that enables maintenance.

In addition, the present invention increases production per unit area compared to mulberry trees grown in the existing open field through automated dense cultivation in the growth space of the greenhouse, as well as eco-friendly management of the greenhouse. Possible safe mulberry leaf production and quality improvement Another purpose is to provide a mulberry smart farm dense cultivation system that enables the increase in farm household income and the activation of the local economy.

The mulberry smart farm dense cultivation system according to the features of the present invention for achieving the above object is,

As a mulberry smart farm dense cultivation system,

A greenhouse forming a growth space for dense cultivation of mulberry trees;

an environmental sensor unit having sensors for detecting internal environmental information for dense cultivation of mulberry trees planted in the growth space inside the greenhouse;

an external environment sensor unit provided outside the greenhouse and sensing external environment information such as temperature, humidity, wind direction/speed, rainfall, and solar radiation;

a drive unit for creating a growth environment for dense planting of mulberry trees by supplying water, supplying nutrient solutions, circulating air, and maintaining a preset temperature required for dense planting of mulberry trees planted in the greenhouse;

an image device unit for real-time monitoring of the densely planted mulberry planting state inside the greenhouse;

an integrated control device unit controlling driving of the environment sensor unit, the external environment sensor unit, the driving device unit, and the imaging device unit; and

It is characterized in that it includes a mulberry dense planting management server that links with the integrated control device unit to database and monitors and manages environmental information collected for dense cultivation of mulberry trees planted in the growth space inside the greenhouse. .

Preferably, the greenhouse,

It can be configured as a semi-circular greenhouse with a roof shape made of a combination of glass panels on a frame frame that is close to a semi-circle.

More preferably, the greenhouse,

Under the driving control of the integrated control unit, a part of the glass panel on the side of the greenhouse may be automatically opened and closed to allow outside air to flow in.

Even more preferably, the greenhouse,

It is composed of a structure in which a glass panel is coupled to a frame frame, and a functional insulation sheet that blocks inflow of ultraviolet rays harmful to the human body, blocks solar heat transmission of near-infrared rays, and transmits visible rays may be further attached to the glass panel.

Preferably, the environmental sensor unit,

A temperature sensor for measuring the temperature inside the greenhouse, a humidity sensor for measuring humidity inside the greenhouse, a CO2 sensor for measuring carbon dioxide (CO2) inside the greenhouse, and a soil for measuring the moisture of the soil in which mulberry trees are planted It may be configured to include a moisture sensor and a nutrient solution measurement sensor for measuring the nutrient solution concentration of the soil in which the mulberry tree is planted.

More preferably, the driving device unit,

An irrigation supply unit installed on the ceiling of the greenhouse to supply moisture necessary for dense cultivation of mulberry trees planted inside the greenhouse, a nutrient solution supply unit for supplying nutrient solution necessary for dense cultivation of mulberry trees planted inside the greenhouse, and the greenhouse A flow fan installed on the ceiling to circulate air for dense cultivation of mulberry trees planted inside, and a heating device for maintaining a preset temperature for dense cultivation of mulberry trees planted in the growth space inside the greenhouse can be configured including

Even more preferably, the imaging device unit,

It can be configured to include a plurality of CCTVs that enable real-time monitoring of the dense cultivation of mulberry trees inside the greenhouse, and a DVR that records and stores images captured through the plurality of CCTVs.

Even more preferably, the mulberry dense planting management server,

Based on the information collected and databased for dense cultivation of the mulberry trees planted inside the greenhouse, the real-time growth environment can be monitored and provided openly to managers or consumers through the web and application of the homepage.

According to the mulberry smart farm dense cultivation system proposed in the present invention, an environmental sensor unit having sensors for detecting internal environmental information for dense cultivation of mulberry trees planted in a growth space inside the greenhouse, Provided outside the greenhouse, The external environment sensor unit detects external environmental information such as temperature and humidity, wind direction/speed, rainfall, and solar radiation, and maintains water supply, nutrient solution supply, air circulation, and preset temperature required for dense cultivation of mulberry trees planted inside the greenhouse Driving device unit for creating a growth environment for dense cultivation of mulberry trees, video device unit for real-time monitoring of the dense cultivation of mulberry trees in the greenhouse, environment sensor unit, external environment sensor unit, driving device unit and imaging device unit Including an integrated control device unit that controls and a mulberry dense planting management server that links with the integrated control device unit to database and monitors and manages environmental information collected for dense cultivation of mulberry trees planted in the growth space inside the greenhouse. By configuring it, the growth environment of the mulberry planted in the greenhouse for dense cultivation of the mulberry tree is automatically adjusted to increase the production of the mulberry tree and minimize labor force, and to enable the maintenance of the smart farm in the growth environment according to the dense cultivation of the mulberry tree. can

In addition, according to the mulberry smart farm dense cultivation system of the present invention, through automated dense cultivation in the growth space of the greenhouse, the production per unit area is increased compared to the mulberry tree grown in the existing open field, as well as through eco-friendly management of the greenhouse It is possible to produce safe mulberry leaves and improve quality, thereby increasing farm household income and revitalizing the local economy.

1 is a diagram showing a schematic configuration of a greenhouse of a mulberry smart farm dense cultivation system according to an embodiment of the present invention.
Figure 2 is a diagram showing the configuration of a mulberry smart farm dense cultivation system according to an embodiment of the present invention as functional blocks.
Figure 3 is a view showing the configuration of a functional insulation sheet attached to the glass panel of the greenhouse of the mulberry smart farm dense cultivation system according to an embodiment of the present invention.
Figure 4 is a view showing the configuration of the environmental sensor unit of the mulberry smart farm dense cultivation system according to an embodiment of the present invention as a functional block.
Figure 5 is a view showing the configuration of the drive unit of the mulberry smart farm dense cultivation system according to an embodiment of the present invention as a functional block.
6 is a diagram showing the configuration of the imaging device unit of the mulberry smart farm dense cultivation system according to an embodiment of the present invention in functional blocks.
7 is a diagram showing an example of comparison of production per unit area of the mulberry smart farm dense cultivation system according to an embodiment of the present invention.

Hereinafter, preferred embodiments will be described in detail so that those skilled in the art can easily practice the present invention with reference to the accompanying drawings. However, in describing a preferred embodiment of the present invention in detail, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the same reference numerals are used throughout the drawings for parts having similar functions and actions.

In addition, throughout the specification, when a part is said to be 'connected' to another part, this is not only the case where it is 'directly connected', but also the case where it is 'indirectly connected' with another element in between. include In addition, 'including' a certain component means that other components may be further included, rather than excluding other components unless otherwise specified.

1 is a diagram showing a schematic configuration of a greenhouse of a mulberry smart farm dense cultivation system according to an embodiment of the present invention, Figure 2 is a functional configuration of a mulberry smart farm dense cultivation system according to an embodiment of the present invention It is a block diagram, Figure 3 is a view showing the configuration of a functional insulation sheet attached to the glass panel of the greenhouse of the mulberry smart farm dense cultivation system according to an embodiment of the present invention, Figure 4 is one of the present invention It is a diagram showing the configuration of the environmental sensor unit of the mulberry smart farm dense planting system according to the embodiment as a functional block, and FIG. 6 is a diagram showing the configuration of the imaging device unit of the mulberry smart farm dense cultivation system according to an embodiment of the present invention in functional blocks. As shown in FIGS. 1 to 6, the mulberry smart farm dense cultivation system 100 according to an embodiment of the present invention includes a greenhouse 110, an environmental sensor unit 120, and an external environment sensor unit 130 , It may be configured to include a driving device unit 140, an image device unit 150, an integrated control device unit 160, and a mulberry dense planting management server 170.

The greenhouse 110 is a building structure that forms a growth space for dense cultivation of mulberry trees. As shown in FIG. 1 , the greenhouse 110 may be configured as a semicircular greenhouse in which a roof shape formed by combining a frame frame 111 and a glass panel 112 is close to a semicircle. Here, the greenhouse 110 may have a structure in which a part of the glass panel 112 on the side of the greenhouse is automatically opened and closed for the inflow of outside air under the driving control of the integrated control unit 160 to be described later.

In addition, as shown in FIG. 3, the greenhouse 110 has a structure in which a frame frame 111 and a glass panel 112 are coupled, but the glass panel 112 blocks the inflow of ultraviolet rays harmful to the human body and near-infrared rays. A functional insulating sheet 113 that blocks solar heat transfer and transmits visible light may be further attached. Here, the functional insulation sheet 113 can function to optimize the growth environment in the greenhouse 110 through cooling and heating efficiency of the greenhouse 110, semi-permanent use, near-infrared rays, and harmful ultraviolet rays, and to increase production. As the functional insulation sheet 113, a heat control light sheet (also known as a damage sheet) of Lopeco may be used.

The environmental sensor unit 120 is configured to include sensors for detecting internal environmental information for dense cultivation of mulberry trees planted in the growth space inside the greenhouse 110 . As shown in FIG. 4, the environment sensor unit 120 includes a temperature sensor 121 for measuring the temperature inside the greenhouse 110 and a humidity sensor 122 for measuring the humidity inside the greenhouse 110; A CO2 sensor 123 for measuring carbon dioxide (CO2) inside the greenhouse 110, a soil moisture sensor 124 for measuring the moisture of the soil in which mulberry trees are planted, and a nutrient solution for measuring the concentration of nutrient solution in the soil in which mulberry trees are planted It may be configured to include a measurement sensor 125. Here, the environmental sensor unit 120 includes the temperature measured through the temperature sensor 121, the humidity measured through the humidity sensor 122, the carbon dioxide measured through the CO2 sensor 123, and the soil moisture sensor 124 ), and the nutrient solution concentration of the soil measured through the nutrient solution measurement sensor 125 are provided to the integrated control unit 160 to be described later.

The external environment sensor unit 130 is provided outside the greenhouse 110 and is configured to sense external environmental information such as temperature and humidity, wind direction/speed, rainfall, and solar radiation. The external environment sensor unit 130 may include a sensor that measures external environmental information including temperature outside the greenhouse 110, humidity, wind direction/speed, rainfall, solar radiation, and the like. Here, the sensor values measured by the external environment sensor unit 130 are provided to the integrated control unit 160 to be described later.

The drive device unit 140 is configured to create a growth environment for dense planting of mulberry trees by supplying water, supplying nutrient solution, circulating air, and maintaining a preset temperature required for dense planting of mulberry plants planted inside the greenhouse 110. As shown in FIG. 5, the driving unit 140 includes an irrigation supply unit 141 installed on the ceiling of the greenhouse 110 to supply moisture necessary for dense cultivation of mulberry trees planted inside the greenhouse 110 and , A nutrient solution supply unit 142 for supplying nutrient solution necessary for dense cultivation of mulberry trees planted inside the greenhouse 110, and installed on the ceiling to circulate air for dense cultivation of mulberry trees planted inside the greenhouse 110 It can be configured to include a flow fan 143 and a heating device 144 to maintain a preset temperature for dense cultivation of mulberry trees planted in the growth space inside the greenhouse 110. Here, the drive device unit 140 may further include an LED lighting device (not shown) capable of illuminating the growing space on the ceiling of the greenhouse 110 .

In addition, the irrigation supply unit 141 of the drive unit 140 sprays and supplies moisture when the moisture in the greenhouse 110 is insufficient under the driving control of the integrated control unit 160, and the nutrient solution supply unit 142 Under the driving control of the integrated control unit 160, the nutrient solution can be supplied to the mulberry trees planted for dense cultivation, and the flow fan 143 circulates the air inside the greenhouse 110 under the driving control of the integrated control unit. and the heating unit 144 operates under the driving control of the integrated control unit 160 so that the temperature inside the greenhouse 110 can be maintained at a preset temperature.

The imaging device unit 150 is a component of an imaging device that enables real-time monitoring of the mulberry planting state inside the greenhouse 110 . As shown in FIG. 6, this imaging device unit 150 is photographed through a plurality of CCTVs 151 and a plurality of CCTVs 151 that enable real-time monitoring of the mulberry dense cultivation state inside the greenhouse 110 It can be configured to include a DVR (152) for recording and storing the video to be. Here, the imaging device unit 150 may further include a web camera and an infrared camera in addition to the CCTV 151 .

In addition, the imaging device unit 150 includes a thermal imaging (infrared) camera, a general visible light camera, a near-infrared (NIR) camera, and a spectrum for collecting disease symptoms and pesticide-related information data of mulberry trees densely cultivated inside the greenhouse 110. It may further include one or two or more (spectral) cameras, and the information data scanned and collected through these cameras may be determined through analysis and learning in the mulberry dense planting management server 170 to be followed. At this time, the cameras for collecting information data related to the signs of disease of the mulberry tree and pesticides may be directly installed in the greenhouse 110, or may be configured as portable so that farmers can directly scan and photograph.

The integrated control device unit 160 is a component of an integrated controller that controls driving of the environment sensor unit 120, the external environment sensor unit 130, the drive unit 140, and the imaging device unit 150 as a whole. The integrated control unit 160 measures temperature, humidity, carbon dioxide (CO2), soil moisture, nutrient solution concentration EC, acidity and pH of the environment sensor unit 120, and the temperature and humidity of the external environment sensor unit 130. , Wind direction/speed, rainfall, and solar radiation are measured to control the driving of the driving device unit 140 according to the growth environment conditions set in advance to adjust the densely planted cultivation environment of the mulberry planted in the greenhouse 110.

The mulberry dense cultivation management server 170 interlocks with the integrated control unit 160 to form a database of environmental information collected for dense cultivation of mulberry trees planted in the growth space inside the greenhouse 110, and to monitor and manage the configuration to be. This mulberry dense planting management server 170 monitors the real-time growth environment based on databased information collected for dense planting of mulberry trees planted inside the greenhouse 110, and the manager or consumer through the web and application of the homepage can be provided openly. That is, the mulberry dense planting management server 170 performs production management according to the dense planting of mulberry trees by creating a database and managing information collected related to the dense planting of mulberry trees planted in the growth space of the greenhouse 110.

In addition, the mulberry dense planting management server 170 collects all information data collected in relation to symptoms of disease of mulberry trees and pesticides, including environmental information collected for dense planting of mulberry trees planted in the growth space inside the greenhouse 110, It can be classified and analyzed as data, and used as big data for learning for dense cultivation of mulberry trees.

In addition, the mulberry closed cultivation management server 170 can induce productivity improvement and labor reduction through management of the growth environment of mulberry trees densely grown in the greenhouse 110, and labor reduction and productivity compared to mulberry cultivation in the existing open field It can be made possible to increase, and it can be used as data for educational training and industry-academia-institute technology research for returnees using the built-up information.

7 is a diagram showing an example of comparison of production per unit area of the mulberry smart farm dense cultivation system according to an embodiment of the present invention. As shown in FIG. 7, the mulberry grown densely through the mulberry smart farm dense cultivation system 100 according to the present invention is more than 5 times different in production per unit area compared to mulberry cultivation in the existing open field. In addition, densely cultivated mulberry trees can be processed in various ways such as mulberry leaf sprouts, mulberry leaf tea, and mulberry leaf sprouts for snooty, and can be used as functional foods.

As described above, the mulberry smart farm dense cultivation system according to an embodiment of the present invention includes an environmental sensor unit having sensors for detecting internal environmental information for dense cultivation of mulberry trees planted in a growth space inside the greenhouse, An external environment sensor unit provided outside the greenhouse and detecting external environmental information such as temperature, humidity, wind direction/speed, rainfall, and solar radiation, and water supply, nutrient solution supply, air circulation, And a driving device unit for creating a growth environment for dense cultivation of mulberry trees by maintaining a preset temperature, a video device unit for real-time monitoring of the dense cultivation state of mulberry trees in the greenhouse, an environment sensor unit, an external environment sensor unit, and a driving device An integrated control device unit that controls the driving of the unit and the video device unit, and a mulberry tree that databases environmental information collected for dense cultivation of mulberry trees planted in the growth space inside the greenhouse in conjunction with the integrated control unit unit, and monitors and manages the mulberry tree By including the dense planting management server, the growing environment of the mulberry trees planted in the greenhouse is automatically adjusted for dense planting of the mulberry tree, thereby increasing the production of the mulberry tree and minimizing the labor force, and growing environment according to the dense planting of the mulberry tree It can be maintained, and in particular, through automated dense cultivation in the growth space of the greenhouse, the production per unit area is increased compared to mulberry trees grown in the existing open field, as well as safe mulberry leaf production through eco-friendly management of the greenhouse and quality can be improved, thereby increasing farm household income and revitalizing the local economy.

The present invention described above can be variously modified or applied by those skilled in the art to which the present invention belongs, and the scope of the technical idea according to the present invention should be defined by the claims below.

100: Mulberry smart farm dense cultivation system according to an embodiment of the present invention
110: greenhouse
111: skeleton frame
112: glass panel
113: functional insulation sheet
120: environmental sensor unit
121: temperature sensor
122: humidity sensor
123: CO2 sensor
124: soil moisture sensor
125: nutrient solution measurement sensor
130: external environment sensor unit
140: drive unit
141: irrigation supply unit
142: nutrient solution supply unit
143: floating fan
144: heating unit
150: video device unit
151: CCTV
152: DVR (recording equipment)
160: integrated control unit
170: Mulberry dense planting management server

Claims (8)

As a mulberry smart farm dense cultivation system 100,
A greenhouse 110 forming a growth space for dense cultivation of mulberry trees;
an environment sensor unit 120 having sensors for detecting internal environmental information for dense cultivation of mulberry trees planted in the growth space inside the greenhouse 110;
an external environment sensor unit 130 provided outside the greenhouse 110 and detecting external environment information such as temperature, humidity, wind direction/speed, rainfall, and solar radiation;
A driving device unit 140 for creating a growth environment for dense planting of mulberry trees by supplying moisture, supplying nutrient solution, circulating air, and maintaining a preset temperature required for dense planting of the mulberry planted in the greenhouse 110;
An image device unit 150 that enables real-time monitoring of the mulberry planting state inside the greenhouse 110;
an integrated control device unit 160 that controls driving of the environment sensor unit 120, the external environment sensor unit 130, the driving device unit 140, and the imaging device unit 150; and
A mulberry dense planting management server 170 that connects with the integrated control unit 160 to database and monitors and manages environmental information collected for dense cultivation of mulberry trees planted in the growth space inside the greenhouse 110 include,
The greenhouse 110,
The roof shape made of the combination of the glass panel 112 to the frame frame 111 is composed of a semicircular greenhouse in the form of a semicircle,
The greenhouse 110,
Under the driving control of the integrated control device unit 160, a part of the glass panel 112 on the side of the greenhouse is configured to automatically open and close for the inflow of outside air,
The greenhouse 110,
It consists of a structure in which a glass panel 112 is combined with a frame frame 111, but the glass panel 112 blocks the inflow of ultraviolet rays harmful to the human body, blocks the transmission of solar heat of near infrared rays, and transmits visible rays. A sheet 113 is further attached,
The environment sensor unit 120,
A temperature sensor 121 for measuring the temperature inside the greenhouse 110, a humidity sensor 122 for measuring the humidity inside the greenhouse 110, and measuring carbon dioxide (CO2) inside the greenhouse 110 It is configured to include a CO2 sensor 123, a soil moisture sensor 124 for measuring the moisture of the soil in which the mulberry tree is planted, and a nutrient solution measuring sensor 125 for measuring the nutrient solution concentration in the soil in which the mulberry tree is planted,
The drive unit 140,
An irrigation supply unit 141 installed on the ceiling of the greenhouse 110 to supply moisture necessary for the dense cultivation of the mulberry tree planted inside the greenhouse 110, and the dense planting of the mulberry tree planted inside the greenhouse 110 A nutrient solution supply unit 142 for supplying necessary nutrient solution, a flow fan 143 installed on the ceiling to circulate air for dense cultivation of mulberry trees planted inside the greenhouse 110, and the inside of the greenhouse 110 It is configured to include a heating device unit 144 to maintain a preset temperature for dense cultivation of mulberry trees planted in the growth space of,
The drive unit 140,
It is configured to further include an LED lighting device capable of illuminating the growth space on the ceiling of the greenhouse 110,
The imaging device unit 150,
A plurality of CCTVs 151 that enable real-time monitoring of the dense cultivation of mulberry trees inside the greenhouse 110, and a DVR 152 for recording and storing images captured through the plurality of CCTVs 151, and ,
The imaging device unit 150,
In addition to the CCTV 151, it is configured to further include one or more of a web camera, an infrared camera, a visible light camera, a near infrared (NIR) camera, and a spectrum (spectral) camera,
The integrated control unit 160,
Measured values of temperature, humidity, carbon dioxide (CO2), soil moisture, nutrient solution concentration EC, acidity and pH of the environment sensor unit 120, temperature, humidity, wind direction/speed, rainfall, and solar radiation of the external environment sensor unit 130 Functions to control the driving of the drive device unit 140 according to the growth environment conditions set in advance based on the measured value of , to adjust the densely planted cultivation environment of the mulberry planted in the greenhouse 110,
The mulberry dense cultivation management server 170,
The real-time growth environment is monitored based on information collected and databased for dense cultivation of mulberry trees planted inside the greenhouse 110, and openly provided to managers or consumers through the web and application of the homepage,
The mulberry dense cultivation management server 170,
All information data collected in relation to symptoms of disease of mulberry trees and pesticides, including environmental information collected for dense cultivation of mulberry trees planted in the growth space inside the greenhouse 110, are classified and analyzed as big data, and dense planting of mulberry trees Mulberry smart farm dense cultivation system, characterized in that it functions to be used as big data for learning for cultivation. delete delete delete delete delete delete delete

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