KR20170115127A - Intelligent ginseng cultivation device - Google Patents

Abstract

The ginseng cultivation apparatus of the present invention comprises: a sensor unit for collecting cultivation information of ginseng; A supply unit for supplying growth resources containing water and nutrients to the ginseng; A control unit for controlling the supply amount of the growth resources supplied from the supply unit to the ginseng; And a monitoring unit for monitoring the cultivation state of the ginseng at a remote place.

Description

{INTELLIGENT GINSENG CULTIVATION DEVICE}

The present invention relates to an intelligent ginseng cultivation apparatus for controlling ginseng cultivation environment and automating ginseng cultivation.

Ginseng was originally a plant native to the mountain, and it was mined and medicinally used. However, the artificial cultivation of this natural ginseng started as the demand increased and the output became exhausted.

Ginseng can be grown for up to 6 years depending on the application, and temperature, moisture, sunshine and soil environment needs to be controlled during this period.

Korean Patent Registration No. 10-1431787 discloses a method for cultivating ginseng, but does not disclose techniques for cultivation convenience of growers.

Korean Patent Registration No. 10-1431787

The present invention provides a ginseng cultivation apparatus capable of efficiently cultivating ginseng and easily managing ginseng.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the precise forms disclosed. Other objects, which will be apparent to those skilled in the art, It will be possible.

The ginseng cultivation apparatus of the present invention comprises: a sensor unit for collecting cultivation information of ginseng; A supply unit for supplying growth resources containing water and nutrients to the ginseng; A control unit for controlling the supply amount of the growth resources supplied from the supply unit to the ginseng; And a monitoring unit for monitoring the cultivation state of the ginseng at a remote place.

The ginseng cultivation apparatus of the present invention may include a sensor unit, a supply unit, a control unit, and a monitoring unit.

Using sensor unit, supply unit and control unit, environment optimized for cultivation of ginseng can be formed. Also, by using the monitoring unit, it is possible to easily grasp the cultivation status and cultivation status of ginseng, and to control the supply unit from a remote place.

1 is a perspective view showing an intelligent ginseng cultivation apparatus of the present invention
2 is a side view showing the intelligent ginseng cultivation apparatus of the present invention.
3 is a block diagram showing a measurement value transmission structure of the sensor unit of the present invention.
4 is a block diagram illustrating a control unit and a supply unit of the present invention.
5 is a front view illustrating a manual cultivation environment setting mode interface of the present invention.
6 is a front view showing an automatic cultivation environment setting mode interface of the present invention.
7 to 8 are front views showing temporal examples of the monitoring interface of the portable terminal unit of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. Definitions of these terms should be based on the content of this specification.

The intelligent ginseng cultivation apparatus of the present invention includes a sensor unit 100 for collecting cultivation information, a supply unit 200 for supplying growth resources including water and nutrients, a control unit 200 for controlling the supply amount of the supply unit 200, (300), and a monitoring unit (500) for monitoring the ginseng cultivation state at a remote location.

The sensor unit (100) can measure the cultivation information which is an important factor in ginseng cultivation. The cultivation information may include cultivation environment information or growth information obtained from the sensor unit (100).

The environmental information is information about the environment of the ginseng cultivation area and may include the temperature of the ground, the temperature of the ground, the humidity of the ground, the moisture of the soil, the PH of the soil, and the amount of sunshine.

The growth information is information on the growth state of ginseng, and may include the infection with pests and diseases, the growth rate of ginseng, and the presence of plants other than ginseng.

The sensor unit 100 may include a soil PH sensor, a soil moisture sensor, a humidity sensor, a ground temperature sensor, a soil temperature sensor 140, a monitoring camera 110, and the like. In the figure, a humidity sensor 120 and a ground temperature sensor 120 are integrally provided. In the figure, the soil PH sensor 130 and the soil moisture sensor 130 are integrally provided.

Soil PH sensor can measure pH of ginseng cultivation soil. Soils suitable for ginseng cultivation may be slightly acidic (pH 5.0 to pH 6.0) soil. Therefore, it may be desirable to keep the pH around 5.5 for smooth growth of ginseng. The intelligent ginseng cultivation apparatus of the present invention can control the PH of the soil based on the soil PH value measured by the soil PH sensor. The supply amount of the pH control material such as lime or lime nitrogen supplied from the supply unit 200 can be controlled according to the measured pH value.

Soil moisture sensor can measure soil moisture. Soil quality in ginseng cultivation is clearly distinguished between soil and soil. In the ginseng cultivation soil, sandy clay and clay are preferred, and clay is preferable to clay. Because the soil composition of soils and soils is different, the water drop of the soil can be changed. Therefore, since the moisture content of the soil varies depending on the water drop amount, the soil moisture sensor can be provided in plural to measure the soil moisture of the soil and the soil. In ginseng cultivation, the thickness of the dirt is preferably 30 cm, and the soil moisture sensor can be provided for each 30 cm depth.

Vermicose clay means clay soil, clay means loam, and sand clay means sand.

Clay loam is a medium clay loam with a relatively low clay content and relatively low clay content. It has a high cohesive strength and is difficult to cultivate than a loam clay but has a high nutrient, especially water retention, Cultivation is also possible.

Loam loam refers to soil with 25 to 37.5% clay in fine, fine soil with a grain size of 2 mm or less. Raw loam is good for Saturn, well cultivated, and suitable for all crops.

Soil is relatively small soil with a clay content of 12.5 ~ 25%.

Humidity sensors and ground temperature sensors can measure the humidity and temperature of the ground or the atmosphere. Ginseng is damaged when it is over 30 degrees Celsius (over 400 ℃) in the soil of the soapy soil (400), which is too dry or too humid. The intelligent ginseng cultivation apparatus of the present invention can provide humidity and temperature suitable for cultivation of ginseng by adjusting the air volume of the agricultural water or the ventilator of the supply unit 200 according to the humidity measurement value of the humidity sensor.

The soil temperature sensor 140 can measure the temperature of the soil. In ginseng cultivation, temperature control is important to prevent the occurrence of temperature-related diseases such as growth inhibition, drying damage, solar radiation damage, and freezing damage. Ginseng can be damaged at low temperatures below 0 ° C and high temperatures above 30 ° C. Low temperature in winter influences the freezing of ginseng tissue, especially affecting the surface of the head. When the temperature rises in spring, the soil thaws, and at this time, the ginseng also thaws. And as the temperature of the day rises, the frozen tissues soften and decay as the day melts and the night is repeated. In general, pathogens penetrate tissues countlessly because they prefer wounded and rotten tissue. Heat with heat in summer causes inhibition of growth and loses the conditions under which the plant can grow. Here, when the heat of the sun and the moisture of the atmosphere are over-wetted, the plant is faded, and when the muddy water splashes on the foliage by the rainy season, the tissue softens and the pathogens penetrate the soft tissue. In order to suppress the invention with such a temperature, the supply amount and air volume of the supply unit 200 can be adjusted based on the temperature measurement value of the soil temperature sensor 140. [

The monitoring camera 110 directly photographs ginseng to determine the presence or absence of infection of the ginseng, which is information on the growth state of the ginseng, the growth state of the ginseng (the size of the leaves measured by photographing, the length of the stem, etc.) And so on. The ginseng cultivation area is partitioned into a certain area, and a monitoring camera 110 may be provided for each individual area. The monitoring camera 110 of each zone can photograph the ginseng (ground portion, stem and leaf) of the corresponding zone and transmit the same to the control unit 300 and the monitoring unit 500.

The image photographed by the monitoring camera 110 may be subjected to color analysis in the control unit 300 or the monitoring unit 500. It is possible to extract a position or an area of a color different from the reference value by comparing with the reference color value. According to the extracted value, it is possible to calculate the infectious disease infection of ginseng, the occurrence of heterologous plants, and the growth state of ginseng. The reference color value may vary depending on the type of ginseng being cultivated.

The supply unit 200 may control at least one of the PH of the soil, the moisture of the soil, the humidity of the atmosphere, the temperature of the atmosphere, and the temperature of the soil under the control of the control unit 300.

An image photographed by the monitoring camera 110 may be transmitted to the monitoring unit 500 by the control unit 300. [ The grower can visually grasp the cultivation state of ginseng through the image displayed on the monitoring unit 500. [

The power source of the sensor unit 100 may be supplied through the solar module 410 installed on the upper end of the shading film 400. The sensor unit 100 can be repeatedly installed in a plurality of locations on a wide area. If the structures of the plurality of sensor units 100 are installed in a wide farmland area, facilities for a large number of electric wires are required, and there is a problem in maintenance management for the electric wire facilities. Therefore, the power source of the sensor unit 100 having a relatively low power consumption can be supplied through the solar module 410 installed in the corresponding area. In addition, since the ginseng must block direct sunlight and perform the photosynthesis through scattered light, it is necessary to install an ornamental shield (400). Therefore, if the solar module 410 is installed in the sunshield 400, the requirement for the installation site, which is an essential requirement for installing the solar module 410, can be satisfied.

For example, the ginseng cultivation apparatus of the present invention may be provided with an ornamental film 400 for blocking sunlight irradiated to ginseng. At this time, a solar panel that generates electricity using solar light may be provided on one side of the sunshade 400 facing the sun. Electricity produced in the solar panel can be used as the driving power of at least one of the sensor unit 100, the supply unit 200 and the control unit 300.

The feeding unit 200 can supply the growth resources necessary for growing ginseng.

Growing resources can be water, fertilizer, pesticide, limestone (PH regulating material), wind, ground water (temperature controlled cooling water) and so on.

The supply unit 200 may include a soil water supply unit 210, a ground water supply unit 220, a fan unit 230, and a cooling water underground pipe unit 240.

The soil water supply unit 210 may be installed in the ground to supply water to the soil where the ginseng is grown. The soil moisture supply unit 210 can control the depth and number of buried soil according to the drainage condition of the cultivation soil. The soil water supply unit 210 may include a pipe through which water passes, and a hole or a valve through which water is discharged may be formed in the middle of the pipe.

The ground water supply part 220 may be installed on the other surface of the shading film 400 facing the ginseng. The ground water supply part 220 can supply water in the form of spraying water toward the ginseng from above the ginseng. According to the ground water supply part (220), it is possible to supply water evenly to the ginseng in a form similar to natural rain.

The soil water supply unit 210 or the ground water supply unit 220 may supply water and dilute pesticides, fertilizers, lime materials, etc. to water.

The air flow-up portion 230 may be installed on the floor as a separate stand or may be fixed to the column of the canopy 400. The air rich portion 230 can control the temperature and humidity by circulating the air of the ginseng cultivation area.

The cooling water underground pipe 240 may be a pipe for receiving groundwater. The coolant underground pipe section 240 can be connected to the underground water source and can raise the ground water at a temperature relatively lower than the temperature of the water flowing through the surface of the earth or the temperature of the atmosphere. The supply unit 200 can lower the atmospheric temperature or the soil temperature around the ginseng by using the underground water of the underground water source under the control of the control unit 300. Specifically, if the temperature of the plantation ground is lower than the average temperature and the temperature of the plantation plant is higher than the reference value, the supply unit 200 can lower the temperature of the plantation ground by using the cooling water underground pipe 240 to raise the cold groundwater.

The cooling water underground pipe section 240 may be directly sprayed to the plantation site but may be indirectly connected to the ground water supply section 220 or the soil water supply section 210 through a hose 241 as shown in FIG. Can be supplied. In other words, a cold temperature pipe is provided around the soil, ginseng or shroud (400), and the temperature of the soil or the atmosphere can be lowered by using a cold temperature pipe.

 The supply unit 200 can supply the ground water to the soil or ginseng using the cooling water underground pipe unit 240. Ginseng growth can be disturbed if colder groundwater than atmospheric temperature or surface water is supplied directly to soil or ginseng. The cooling water underground pipe 240 may be provided with a hose 241 through which groundwater flows so that the growth of ginseng is not restricted.

The hose 241 may be extended from the soil to the shade 400. At this time, the ground water flows to the shade 400 along the hose 241 and can absorb the surrounding heat. Ground water absorbing the surrounding heat can be sprayed toward the ginseng after passing through the shade 400, or sprayed or supplied to the soil where the ginseng is grown.

The cooling water underground pipe 240 may be connected to the soil water supply unit 210 or the ground water supply unit 220 or may be integrally formed with the soil water supply unit 210 or the ground water supply unit 220.

The growth resource supply amounts of the soil water supply unit 210, the ground water supply unit 220, the air rich unit 230, and the cooling water underground pipe units 240, which are the components of the supply unit 200, And a supply value of another configuration. For example, water supplied to the ground from the ground water supply part 220 may be absorbed by the soil, and thus may affect the water content of the soil. Therefore, the water supply amount of the soil water supply part 210 can be calculated based on the water supply amount of the ground water supply part 220 and the soil moisture value (water amount) measured by the soil moisture sensor.

The control unit 300 may control the supply unit 200 based on the measured values of the sensor unit 100 and the user setting values of the monitoring unit 500.

The control unit 300 may be provided in the ginseng cultivation area. The control unit 300 can be connected to the sensor unit 100 and the supply unit 200 by a local communication method by being installed at the ginseng cultivation site. The environment of the cultivation area and the growth state of the ginseng can be changed in real time. In order to cope with it in real time, the control unit 300 needs to receive the cultivation information from the sensor unit 100 in real time. Further, the control unit 300 needs to supply a supply command to the supply unit 200 in accordance with the cultivation information provided in real time. That is, since the communication information is exchanged frequently between the control unit 300, the sensor unit 100, and the supply unit 200, it may be advantageous to be connected to the local communication in which the communication maintenance cost is relatively reduced.

The control unit 300 includes a communication unit 310 communicatively coupled to the sensor unit 100, the supply unit 200 or the monitoring unit 500 and a control unit 320 for issuing a control command to the supply unit 200 .

The communication unit 310 may be connected to the sensor unit 100 or the monitoring unit 500 in a wired or wireless manner.

The communication unit 310 may receive the measured value of the sensor unit 100 and may transmit the measured value to the control unit 320 or the monitoring unit 500.

The communication unit 310 may be connected to at least one of the sensor unit 100, the supply unit 200, and the monitoring unit 500 through a wireless communication network such as LTE WIFI.

LTE WIFI is a technology called LTE-Wi-Fi Carrier Aggregation, LTE-Wi-Fi Link Aggregation, LTE-H and LTE-X and can be a communication network combining LTE and WIFI communication systems. Devices connected via the Internet can be connected at the same time through multiple paths, and WIFI or LTE can use different paths. In other words, TCP can basically be used only one of them because it has a single path communicating between the sending device and the receiving device. The LTE WIFI is a communication device having a separate means for making a plurality of communication paths into a WIFI or an LTE network.

In one embodiment, the LTE WIFI includes Multipath TCP (MPTCP), so that the number of communication paths can be increased to several. The existing TCP layer is divided into one MPTCP layer and several TCP subflows (sub-flows) therebelow, so that IP can be divided by the number of TCP sub-flows. This allows you to send multiple chunks of data (WIFI or LTE routes), even if both sender and receiver support MPTCP.

Therefore, the communication unit 310 uses the LTE WIFI using both the LTE and the WIFI networks, so that the sensor unit 100 or the supply unit 200 installed close to the control unit 300 uses the WIFI network with a high specific gravity And may be connected to the monitoring unit 500 located at a remote location through an LTE network.

The control unit 320 may issue a control command to the supply unit 200 based on the measured value of the sensor unit 100 and the user setting value received from the monitoring unit.

The control unit 320 calculates a supply amount of a growth resource to be supplied from the supply unit 200, sets a measured value of the sensor unit 100 as a variable, a user set value as a reference value, Can be delivered to the feeding unit 200. The user setting value may be input from the monitoring unit 500. [

 The monitoring unit 500 is connected to the control unit 300 through a communication network and receives the cultivation information through the control unit 300. 3, the measured value measured by the sensor unit 100 is transmitted to the communication unit 310 of the control unit 300, and the measured value transmitted from the communication unit 310 is transmitted to the monitoring unit 500 .

The monitoring unit 500 may include a smart device that is easy to carry or a PC that is easy to manage data. That is, the monitoring unit 500 may include a portable terminal unit 510, which is a smart device that is easy to carry, and a data server unit 520, which is a PC that is easy to manage data.

 Using the portable terminal unit 510, the grower can remotely monitor the cultivation information of the cultivation area, input the user setting value, and transmit the user setting value to the control unit 300.

The portable terminal unit 510 may monitor the cultivation information of the cultivation area by video as shown in FIG. 5, or may be monitored by an image as shown in FIG. 7 to FIG.

5, the portable terminal unit 510 displays an item list window 511, a current cultivation status window 515, a user setting value character input window 512, and a user setting value selection window 513 .

The item list window 511 stores a list of items such as a ground temperature, an underground temperature (soil temperature), a ground humidity, a ground moisture (soil moisture), a soil PH, a supply period of fertilizer, water, pesticide, May be displayed.

The current cultivation status window 515 may be displayed adjacent to the left or right side of the item list window 511. [ The cultivation information measured in the sensor unit 100 may be displayed in the current cultivation status window 515 so as to match each item of the item list window 511. [ The values in the current cultivation status window 515 can not be modified by the user in the monitoring unit 500.

The user setting value character input window 512 may be displayed adjacent to the left or right side of the item list window 511 or the current cultivation status window 515. [ The user-settable character input window 512 can directly input numerical values through the keypad. The input value may be transmitted to the control unit 300 and used as a reference value for calculating the growth resource supply amount.

The user setting value selection window can be displayed adjacent to the user setting value character input window 512. [ The user setting value can be set to one of the predefined values through the user setting value selection window 513. [ For example, when the user setting value selection window 513 is activated, the user setting value character input window 512 may be extended upward or downward so that a plurality of dictionary defined values may be displayed in an aligned manner, You can select it and set it as a user setting value.

An input menu for inputting a target value of measurement information of the sensor unit 100 may be displayed on the portable terminal unit 510. [ The input menu may include a user setting value character input window 512 or a user setting value selection window 513. [

In the input menu, manual cultivation environment setting mode in which the target values such as temperature, humidity, and pH are directly input, and the type of cultivated ginseng, cultivation step, cultivated soil type, and the like, An automatic cultivation environment setting mode may be provided.

As shown in FIG. 5, the manual cultivation environment setting mode may be a mode of directly inputting a user setting value (target value) for each cultivation information (measurement information) directly. Manual cultivation environment setting mode can be suitable when growers have know-how about their own cultivation temperature, humidity, PH, or when cultivating ginseng for special cultivation purpose (cultivation condition experiment, etc.).

6, when the type of ginseng, the type of cultivated soil, the cultivation stage of present ginseng, and the like are inputted, the automatic cultivation environment setting mode is changed to the ground temperature, soil temperature, ground humidity, soil moisture, The numerical value for the soil PH may be set to a predetermined user setting value. In other words, the automatic cultivation setting mode may be a mode in which the ginseng type, the cultivation step, the measurement information matching with the cultivated soil type, or the target value of the cultivation information is automatically set.

There are various kinds of ginseng, such as a green seedling, a green seedling, a blue seedling seed, a green seedling seed, KG-101, KG-102 and KG-104. have. For example, the stigma and petiole are completely purple, half is purple, half is green, and mature when they become red. In the case of Hwangsookjong, however, stem and petiole are reddish-purple, . That is, when the image captured by the monitoring camera 110 is analyzed, the reference color value is different.

In addition, the growth resources required for each step such as the germination stage, the first year, and the second year may be different in the growth stage.

The automatic cultivation setting mode can set complex detailed user setting values automatically by inputting some simple information such as kinds of ginseng, cultivation step, soil type and so on.

The portable terminal unit 510 can monitor the current cultivation state with an image. As shown in FIGS. 7 to 8, the portable terminal unit 510 can display an image photographed by the monitoring camera 110 through the grown image display window 514. When the grower enters the cultivation zone number in the portable terminal unit 510, the portable terminal unit 510 can display the image of the cultivation zone through the cultivation image display window 514. [

The cultivated image display window 514 displays an image of the cultivation site photographed by the monitoring camera 110. When an abnormal condition such as a pest insult occurs, an abnormal status display cursor 516 is displayed on the cultivated image Can be displayed in a part where an abnormal state occurs. Through the abnormal state display cursor 516, the grower can easily confirm the detailed position of the occurrence of the insect damage.

Specifically, the control unit 300 can receive a photographed image of the monitoring camera 110 photographed with ginseng, and transmit the photographed image to the monitoring unit 500 through a wireless communication module or the like.

The monitoring unit 500 can receive and analyze the photographed image from the control unit 300. The monitoring unit 500 can distinguish the stem or leaf of ginseng from the surrounding environment. The monitoring unit 500 can compare the color of the stem or leaf of ginseng with the set color, and display an abnormal condition indicating cover supporting the stem or leaf of the ginseng different from the set color on the photographed image.

The data server 520 basically includes a monitoring function and a user setting value input function of the portable terminal unit 510. In addition to the measurement values of the sensor unit 100 continuously measured, 200 can be collected. When the measured value of the sensor unit 100 is measured, the growth resource supply value supplied by the supply unit 200 can be matched and stored.

The collected data can be used as statistical data for research.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the true scope of the present invention should be determined by the following claims.

100 ... Sensor unit 110 ... Monitoring camera
120 ... humidity sensor, ground temperature sensor 130 ... soil PH sensor, soil moisture sensor
140 ... soil temperature sensor 200 ... supply unit
210 ... soil water supply part 220 ... ground water supply part
230 ... Enrichment zone 240 ... Cooling water underground pipe section
241 ... hose 300 ... control unit
310 ... communication unit 320 ... control unit
400 ... Awnings 410 ... Solar modules
500 ... Monitoring unit 510 ... Portable terminal unit
511 ... Item list window 512 ... User setting value character input window
513 ... Selection window for custom setting 514 ... Cultivation image display window
515 ... Current cultivation status window 516 ... Abnormal status cursor
520 ... data server section

Claims (9)

A sensor unit for collecting cultivation information of ginseng;
A supply unit for supplying growth resources containing water and nutrients to the ginseng;
A control unit for controlling the supply amount of the growth resources supplied from the supply unit to the ginseng;
A monitoring unit for monitoring the cultivation state of the ginseng at a remote place;
The ginseng cultivation apparatus comprising:
The method according to claim 1,
Wherein the sensor unit includes at least one of a soil pH sensor, a soil moisture sensor, a humidity sensor, a ground temperature sensor, a soil temperature sensor, and a monitoring camera,
The soil PH sensor measures the pH of the soil on which the ginseng is grown,
The soil moisture sensor measures the moisture of the soil in which the ginseng is grown,
The humidity sensor measures the humidity of the atmosphere,
The ground temperature sensor measures the temperature of the atmosphere,
The soil temperature sensor measures the temperature of the soil in which the ginseng is grown,
The monitoring camera captures the ginseng,
The supply unit controls at least one of PH of the soil, moisture of the soil, humidity of the atmosphere, temperature of the atmosphere, and temperature of the soil under the control of the control unit,
Wherein the control unit transmits the image photographed by the monitoring camera to the monitoring unit.
The method according to claim 1,
An ornamental film for blocking sunlight irradiated to the ginseng is provided,
A solar panel for producing electricity using solar light is provided on one side of the sunshade facing the sun,
Wherein the electricity generated by the solar panel is used as driving power for at least one of the sensor unit, the supply unit, and the control unit.
The method according to claim 1,
The supply unit includes a soil water supply part buried in the ground and supplying water to the soil in which the ginseng is cultivated, and a ground water supply part installed outside the soil and spraying water toward the ginseng,
Wherein the water supplied from the soil water supply part or the water supplied from the ground water supply part contains pesticides, fertilizer and lime material.
The method according to claim 1,
An ornamental film for blocking sunlight irradiated to the ginseng is provided,
When one side of the ornamental film faces the sun, the other side of the ornamental film faces the ginseng,
Wherein the supply unit is provided on the other surface of the shading film facing the ginseng and is provided with a ground water supply part for spraying water toward the ginseng from above the ginseng.
The method according to claim 1,
The supply unit is provided with a cooling water underground pipe connected to an underground water source,
Wherein the supply unit lowers the temperature of the air or the soil using groundwater of the underground water source under the control of the control unit.
The method according to claim 1,
An ornamental film for blocking sunlight irradiated to the ginseng is provided,
The supply unit is provided with a cooling water underground pipe connected to an underground water source,
A hose through which the ground water flows is provided in the cooling water underground pipe,
The hose extends from the soil to the shade film,
The groundwater flows along the hose to the canopy and absorbs the surrounding heat,
Wherein the ground water absorbing the surrounding heat is sprayed toward the ginseng after passing through the ornamental film or supplied to the soil where the ginseng is cultivated.
The method according to claim 1,
Wherein the monitoring unit includes a portable terminal unit for wirelessly communicating with the control unit,
Wherein the portable terminal unit displays an input menu for inputting measurement information of the sensor unit transmitted from the control unit and a target value of the measurement information,
Wherein the input menu includes a manual cultivation environment setting mode and an automatic cultivation environment setting mode,
Wherein the manual cultivation environment setting mode is a mode in which a target value of the measurement information is directly input,
Wherein the automatic cultivation environment setting mode is a mode in which the target value of the measurement information matched with the kind of ginseng, the cultivation step, and the cultivated soil type, when the at least one of the type of ginseng, the cultivation step, A ginseng cultivation device that is set automatically.
The method according to claim 1,
Wherein the sensor unit includes a monitoring camera for photographing the ginseng,
Wherein the control unit obtains an image of the monitoring camera,
The monitoring unit receives and analyzes the photographed image from the control unit, distinguishes the stem or leaf of ginseng displayed on the photographed image from the surrounding environment, compares the color of the stem or leaf of the ginseng with the set color, A ginseng cultivation device for displaying an abnormal state indicating cursor indicating a stem or leaf of a ginseng different from the set color on the photographed image.

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