KR101933628B1 - Smart Orchard System for Comprehensive Management of Bare Ground Orchard - Google Patents

Abstract

The present invention relates to a smart orchard system for comprehensive management of a bare ground orchard and, more specifically, to a smart orchard system for comprehensive management of a bare ground orchard which measures environment information influencing a crop of a bare ground orchard and collects the environment information in a standardized DB form to output the environment information to a farm administrator of the bare ground orchard and to automatically manage an environment of the crop in accordance with the environment information so as to respond to disasters such as drought, frost or the like which are out of an appropriate range of fruit growth, thereby allowing a farm to effectively growing the crop of the bare ground orchard.

Description

{Smart Orchard System for Comprehensive Management of Bare Ground Orchard}

More particularly, the present invention relates to a smart orchard system for collecting and managing environmental information that affects a crop of a non-squid farmer, collecting the environmental information in a standardized DB format, The present invention relates to a smart orchard system for comprehensive management of a non-farm farmhouse which automatically outputs the information to the farmhouse manager of the farm farmer and automatically manages the environment of the crop in accordance with the environmental information.

Conventionally, a system that manages a comprehensive house is a system that manages the house of a closed space such as a house, not a house.

The system that manages the enclosure of the enclosed space has no difficulty in measuring and controlling the environment inside the facility due to the specificity of the enclosed space. However, in the past, There is a need to prepare and manage countermeasures against sudden changes in the environment because the environment of cultivation is so different that the environment of the field can not be controlled due to the non-hermeticity of the space.

Patent Document 10-2016-0133956 Patent Document 10-2016-0015926

The problem to be solved by the present invention is to overcome the above problems by collecting environment information inside and outside of the community affecting the crop in the community within the farmhouse, storing the environmental information in a standardized DB format, So that the farmer can view the environmental information at any time.

The present invention relates to a smart orchard system for comprehensive management of a non-winery, and in a smart orchard system for comprehensive management of a non-winery, measures environmental information of a community within the winery and transmits data on the environment information to the server A farmhouse management unit 100 for controlling the temperature of the community by supplying water to the crop according to the control information of the server 200 and emitting fine water; The control unit 100 receives and stores the environment information measured through the farm management unit 100 and transmits the stored control information to the farm management unit 100 so that the farm management unit 100 can use the control information, 100) transmits the environment information to the terminal (300) so that the farmer can confirm the environment information through the terminal (300); And a controller 200 for receiving the control information and transmitting the control information to the server 200 so that the farmer of the farmhouse manager 100 can input control information to the server 200, And a terminal 300 for outputting the information so that it can be confirmed by the user.

The farm management unit 100 includes a sensor unit 110 for measuring environmental information inside and outside the farm and for transmitting the measured environmental information to the server 200 through the farm management communication unit 160; A water supply unit 120 installed at a lower or central part of the crop in the community within the plantation and supplying water to the crop in the community within the plantation under the control of the farmhouse control unit 150; A fine water spraying unit 130 installed at an upper end of the crop in a community within the plantation and spraying fine water under the control of the farmhouse control unit 150; A CCTV (140) installed in a community within a cluster and capturing an image of the community in the village, transmitting the photographed image to the server (200), and changing the gazing direction under the control of the farmhouse control unit (150); And controls the water supply unit 120, the fine spraying unit 130, and the CCTV 140 based on the control information of the server 200 received from the server 200 through the farmhouse management communication unit 160 A farmhouse control unit 150; And a farm management communication unit 160 for data communication with the server 200.

Also, the server 200 may include a data collection unit 210 for collecting data on the environmental information transmitted from the farm management unit 100 through the server communication unit 270; A data analysis unit 220 for converting the data collected through the data collection unit 210 into data matched with the farmhouse of the farmhouse management unit 100; A data storage unit 230 for converting the converted data through the data analysis unit 220 into a standardized DB format; The information on the environmental information, which is the data converted through the data storage unit 230, and the information on the growth of seven kinds of fruits (apples, pears, grapes, peaches, persimmon and mandarin) A data store 240 for storing the unique identification value, the farmhouse information, the control information, the weather information, the control record, the breed information, and the pest information in a standardized DB format; A web monitoring unit 250 for outputting the environment information stored in the data storage 240 to the farmer based on the web through the terminal 300; And a server communication unit (270) for performing data communication with at least one of the farm management unit (100) or the terminal (300).

According to the present invention, the environmental information of the inside and outside of the community affecting the crops is collected from the community within the field and the drought and frost damage And the farmers can effectively grow the crops of the Nogi plant.

FIG. 1 is a block diagram of a smart orchard system for comprehensive management of a non-vegetable plant according to an embodiment of the present invention.
FIG. 2 is a block diagram of a farm management unit 100 in a smart orchard system for comprehensive management of a non-vegetable plant according to an embodiment of the present invention.
FIG. 3 is a block diagram of the sensor unit 110 in a smart orchard system for comprehensive management of the open hearth totalizer according to an embodiment of the present invention.
FIG. 4 is an exemplary view of a sensor cluster unit 111 and an external weather sensor unit 112 in a smart orchard system for managing the overall management of the open-loop oven according to an embodiment of the present invention.
FIG. 5 is an exemplary view of a soil sensor unit 113 in a smart orchard system for managing the overall management of the open hearth according to an embodiment of the present invention.
FIG. 6 is a block diagram of a watering unit 120 in a smart orchard system for comprehensive management of the open hearth plant according to an embodiment of the present invention.
FIG. 7 is a block diagram of a farmer's control unit 150 in a smart orchard system for managing the overall management of the open hearth plant according to an embodiment of the present invention.
FIG. 8 is a block diagram of a server 200 in a smart orchard system for comprehensive management of a non-vegetable plant according to an embodiment of the present invention.
FIG. 9 is a diagram illustrating an example in which the web monitoring unit 250 outputs environmental information as a graph in a smart orchard system for managing the overall management of the open hearth according to an embodiment of the present invention.
FIG. 10 is a diagram illustrating an example in which the web monitoring unit 250 outputs environmental information as a graph in a smart orchard system for managing the overall management of the open-ended oven according to an embodiment of the present invention.
FIG. 11 is an exemplary view of a watering part 120 in a smart orchard system for managing a total number of open hearths according to an embodiment of the present invention.
FIG. 12 is an exemplary view of a fine water sprinkler 130 in a smart orchard system for managing the overall management of the open hearth according to an embodiment of the present invention.

Before describing the specific details for the practice of the invention, terms and words used in the specification and claims should be construed to enable the inventor to properly define the concept of a term in order to best describe its invention The present invention is not limited thereto.

It is to be noted that the detailed description of known functions and constructions related to the present invention is omitted when it is determined that the gist of the present invention may be unnecessarily blurred.

Hereinafter, a smart orchard system for comprehensive management of the open hearth plant according to a preferred embodiment of the present invention will be described in detail with reference to FIGS. 1 to 12.

FIG. 1 is a block diagram of a smart orchard system for comprehensive management of a non-vegetable plant according to an embodiment of the present invention.

As shown in FIG. 1, in a smart orchard system for managing the overall management of a non-subsidized plant, environmental information of a community within a plant is measured, data on the environment information is transmitted to the server 200, The farm management unit 100 for controlling the temperature of the community by supplying water to the crop and finely watering the crop, and the environment information measured through the farm management unit 100. The farm management unit 100 The farmer management unit 100 transmits the stored control information to the farmer management unit 100 so that the farmer can confirm the environment information through the terminal 300 The server 200 receives the control information and transmits the control information to the server 200 so that the farmer of the farmhouse management unit 100 can input control information to the server 200 And comprises a terminal 300 for outputting to check the environmental information to the naked eye of a transmission wherein the server (200).

In addition, the external institution server 400, which stores the crop variety information, the pest information, the growth information, and the weather information, may have a separate server for each piece of information. This is because the external agency itself may be different depending on the information covered by the external organization. In particular, weather information is generally stored on the servers of the Korea Meteorological Administration.

In addition, the environmental information is composed of environmental information within a plant community that affects the crop within the plant community, external weather environment information outside the plantation community, and soil environment information.

In addition, the environmental information and the external weather environment information of the plant community include temperature, humidity, light amount, rainfall, wind speed, and direction information, and the soil environment information is soil temperature and soil humidity information.

In addition, the farmhouse management unit 100 exists in each farmhouse, and therefore, there are one or more farmhouse managers.

In addition, the preferred embodiment for storing the environment information received by the server 200 may be stored separately for each farmhouse.

In addition, the control information previously stored in the server 200 is basic control information necessary for the crop in the farm, and the farmer can store the desired control information in the server 200 through the terminal 300 have.

In addition, the farmhouse collectively refers to a manager who manages the farmhouse where the farmyard management unit 100 is installed.

In addition, the server 200 transmits the environmental information to the terminal 300 by simply transmitting a numerical value or a table or by generating a graph of the environmental information.

In addition, a preferred embodiment of the terminal 300 is a cellular phone or a computer.

In addition, when the server 200 generates and transmits a graph of the environment information, the terminal 300 outputs the graph.

FIG. 2 is a block diagram of a farm management unit 100 in a smart orchard system for comprehensive management of a non-vegetable plant according to an embodiment of the present invention.

The farm management unit 100 includes a sensor unit 110 for measuring environmental information inside and outside the farm and for transmitting the measured environmental information to the server 200 through the farm management communication unit 160, (120) which is installed at the lower or central part of the crop in accordance with the control of the farmer control unit (150) and supplies water to the crop in the plantation under the control of the farmer control unit (150) A fine spraying unit 130 for spraying fine water according to the control of the controller 150 and a sub-spraying unit 130 installed in the sub-arc pool for capturing an image of the inner community and transmitting the photographed image to the server 200, (120) and the server (200) based on the control information of the server (200) received from the server (200) through the CCTV (140) and the farmhouse management communication unit (160) The fine spraying part 130 and the phase It comprises a CCTV (140) farm controller 150 for controlling to the server 200 and the farm management communication unit 160 for data communication.

When the server 200 transmits the image captured by the CCTV 140 to the server 200, the server 200 stores the image and the image stored in the server through the terminal 300 is visually And the farmer can visually confirm the image being shot through the server in real time.

In addition, the farmhouse control unit 150 controls the watering unit 120, the fine spraying unit 130, and the CCTV 140, and then records the control on the farm management and communication unit 160, (200).

In addition, a preferred embodiment of the farm management communication unit 160 for data communication includes an Internet, an intranet network, and a communication system such as Ethernet, CDMA, LTE, and IOT.

FIG. 6 is a block diagram of a watering unit 120 in a smart orchard system for comprehensive management of the open hearth plant according to an embodiment of the present invention.

FIG. 11 is an exemplary view of a watering part 120 in a smart orchard system for managing a total number of open hearths according to an embodiment of the present invention.

6 and 11, the water supply unit 120 is installed in the central part of the crop in the plantation under control of the farmhouse control unit 150, and the sprinkler system A water spraying unit 121 for supplying water at a predetermined rate to the crop in a planting area under the control of the farmhouse control unit 150 installed at a lower part of the crop in a community within the plantation, (122).

 FIG. 12 is an exemplary view of a fine water sprinkler 130 in a smart orchard system for managing the overall management of the open hearth according to an embodiment of the present invention.

In addition, as shown in FIG. 12, in the preferred embodiment in which the fine spraying unit 130 is installed on the top of the crop, one fine spraying sprayer is installed per crop.

FIG. 3 is a block diagram of the sensor unit 110 in a smart orchard system for comprehensive management of the open hearth totalizer according to an embodiment of the present invention.

3, the sensor unit 110 measures the temperature, humidity, light amount, rainfall, wind speed, and wind direction of the environmental information in the plant community affecting the crop within the plant community An external weather sensor unit 112 for measuring the temperature, humidity, light quantity, rainfall, wind speed and direction of the external weather environment information outside the sensor unit 111 in the plantation community and the external weather environment information in the plantation community, The soil sensor unit 113 for measuring the temperature and humidity of the soil which is the soil environment information affecting the soil sensor unit 113 and the sensor unit 111, the outer weather sensor unit 112 and the soil sensor unit 113 And a sensor node unit 114 for assigning sensor inherent identification values to sensor types and measured values of measured temperature, humidity, light quantity, rainfall, wind speed, wind direction, soil temperature, and soil humidity.

FIG. 4 is an exemplary view of a sensor cluster unit 111 and an external weather sensor unit 112 in a smart orchard system for managing the overall management of the open-loop oven according to an embodiment of the present invention.

4, the sensor unit 111 in the plant cluster includes a temperature sensor unit 111a, a humidity sensor unit 111b, a light sensor unit 111c, A rainfall sensor unit 111d, a wind speed sensor unit 111e, and a wind direction sensor unit 111f.

In addition, the temperature sensor unit 111a in the plant cluster measures the temperature inside the plant community, the humidity sensor unit 111b in the plant community measures the humidity inside the plant community, The rainfall sensor unit 111d measures the amount of rainfall inside the plant community and the wind speed sensor unit 111e measures the wind speed inside the plant community. And the intra-community-direction intra-wind direction sensor unit 111f measures the wind direction inside the sub-community.

4, the external gas sensor unit 112 includes an external gas phase temperature sensor unit 112a, an external gas phase humidity sensor unit 112b, an external gas phase light amount sensor unit 112c, A sensor portion 112d, an external vapor-phase sensor portion 112e, and an external vapor-phase sensor portion 112f, and one or more sensors are provided outside the community.

In addition, the external gas phase temperature sensor unit 112a measures the temperature outside the community, the external gas phase humidity sensor unit 112b measures the humidity outside the community, and the external gas phase light amount sensor unit 112c measures the outside The external gauging amount sensor unit 112d measures the amount of rainfall outside the community, the external gauging velocity sensor unit 112e measures the wind speed outside the gauging area, 112f measure the wind direction outside the community.

FIG. 5 is an exemplary view of a soil sensor unit 113 in a smart orchard system for managing the overall management of the open hearth according to an embodiment of the present invention.

5, the soil sensor unit 113 includes a soil temperature sensor unit 113a installed at a distance of 15 cm or less from the surface of the soil and a soil humidity sensor unit 113 installed at any one of 30 cm or 50 cm from the ground. (113b).

In addition, the soil temperature sensor unit 113a measures the temperature of the communicating soil, and the soil humidity sensor 113b measures the humidity of the communicating soil.

FIG. 7 is a block diagram of a farmer's control unit 150 in a smart orchard system for managing the overall management of the open hearth plant according to an embodiment of the present invention.

7, the farm control unit 150 includes a fine spraying control unit 151 for controlling the fine spraying unit 130 according to the control information received from the server 200, A water supply control unit 152 for controlling the water supply unit 120 according to the control information received from the server 200 and a CCTV control unit 160 for controlling the CCTV 140 according to the control information received from the server 200 153).

The control information received by the microfiltration control unit 151 from the server 200 through the farmhouse management communication unit 160 may be transmitted to the farm 200 according to the intensity of the light intensity and the temperature The microfiltration unit 130 automatically operates at the temperature outside the community (the upper limit of the temperature at which the crop can tolerate), and the temperature outside the community written by the farmer in order to prevent frost damage And the temperature is continuously sprayed until the temperature becomes outside the stable community of the growth information stored in the server 200 (step < RTI ID = 0.0 > .

In addition, the temperature outside the community where the micro-sprinkling unit 130 operates differs depending on the crop of the farm because there is a difference in the temperature outside the community that can withstand each crop.

In addition, the farmer may access the server 200 through the terminal 300, and the farmer may transmit the manual control information to the fine water controller 151 to operate the fine water sprayer 130.

In addition, the preferred embodiment of the control information received by the irrigation control unit 152 from the server 200 via the farm management communication unit 160 includes the temperature and humidity of the soil in the measured environment information, According to the growing status of the crops stored in the farm, Through this, active irrigation is controlled based on the environmental information of the crop.

In addition, the farmer may connect the server 200 through the terminal 300, and the farmer may transmit the manual control information to the irrigation control unit 152 to operate the irrigation unit 120.

In addition, the control information received from the server 200 via the farmhouse management communication unit 160 by the CCTV control unit 153 is control information on the viewing direction of the CCTV 140 and whether or not the image is captured.

In addition, the farmer can access the server 200 through the terminal 300, and the farmer can manually transmit the control information to the CCTV controller 153 to manually select the gazing direction and the photographing state of the CCTV 140.

FIG. 8 is a block diagram of a server 200 in a smart orchard system for comprehensive management of a non-vegetable plant according to an embodiment of the present invention.

8, the server 200 includes a data collecting unit 210 for collecting data on the environment information transmitted from the farm management unit 100 through the server communication unit 270, A data analysis unit 220 for converting the data collected through the data collection unit 210 into data matched with farmhouses of the farmhouse management unit 100 and a data analysis unit 220 for converting the data converted by the data analysis unit 220 into standardized DB format, and the environmental information, which is the data converted through the data storage unit 230, and the seven kinds of fruits (apple, pear, grape, persimmon, mandarin and kiwi) A data store 240 for storing the sensor unique identification value, the farmhouse information, the control information, the weather information, the control record, the breed information and the pest information in a standardized DB format, which is given through the sensor node unit 113, To the farmhouse A web monitoring unit 250 for outputting the environmental information stored in the data repository 240 through the terminal 300 as a visible graph, An alarm unit 260 for sending an alarm to the terminal 300 through the server communication unit 270 when the temperature is outside the temperature range in which the growth information is available, And a server communication unit 270 for data communication.

A preferred embodiment of the data collection unit 210 collects data on the environment information transmitted from the farmhouse management unit 100 is first communicated to the farmhouse management unit 100 through the server communication unit 270 And detects data packets on the network (step A)

Next, the environment information data is identified in the data packet sensed through the step A, and data about the environmental information transmitted from the farmhouse management unit 100 is collected (step B).

In addition, a preferred embodiment for identifying the environment information data in the data packet sensed through the step A in the step B is a method for comparing the environmental information data with a predetermined format of the environmental information transmitted from the farmhouse management unit 100 And identifies environment information data in the data packet detected through the step A,

In addition, a preferred embodiment for converting the data collected by the data analysis unit 220 through the data collection unit 210 into the data matched with the farmhouse of the farmhouse management unit 100 includes first, (Step C). In step C, the sensor unique identification value assigned by the sensor node unit 114 is extracted from the data collected through the sensor node unit 210.

Next, the sensor unique identification value extracted in step C is compared with a sensor unique identification value stored in the data storage 240 (step D).

Next, if the sensor unique identification value is stored in the data storage 240 as a result of the comparison in the step D, the farmhouse code matching the sensor unique identification value among the farmhouse codes stored in the data store 240 Retrieve the code (step E).

If there is a farmhouse code matched with the sensor unique identification value as a result of the step E, environment information is extracted from the data collected through the data collection unit 210 (step F).

Next, the environmental information extracted in the step F, the sensor unique identification value and the farmhouse code are matched and converted into the standardized data (step G).

In addition, the environmental information stored in the data store 240 may include a farmhouse code, a sensor unique identification value, and a collection time of the environmental information transmitted from the farmhouse management unit 100 through the server communication unit 270, The temperature and humidity of the interior and exterior, the direction and direction of the wind direction, the flow rate, the flow rate of the river, the temperature of the soil in the community, and the humidity of the soil.

In addition, the growth information stored in the data repository 240 is retrieved from the external institution server 400 or stored in advance in advance.

In addition, information on the growth of the crops includes information on the temperature inside the community, the temperature inside the community, the temperature outside the community, the humidity outside the community, the temperature of the community soil, and the community soil Humidity, and various other information required for growth.

In addition, the farmhouse information stored in the data store 240 is information on the farmhouse code, the owner of the farmhouse, the manager of the farmhouse, the address of the farmhouse, and the crop of the farmhouse. The double farmhouse code is used when the data collected by the data analyzer 220 through the data collecting unit 210 is matched with the farmhouse of the farmhouse manager 100.

In addition, the control information stored in the data storage unit 240 is transmitted from the fine spraying control unit 151, the irrigation control unit 152, and the CCTV control unit 153 of the farm control unit 150 to the fine spraying unit 130 and the water supply unit 120 ) And the CCTV 140. [0064]

In addition, a preferred embodiment of the control information to be transmitted to the micropainting control unit 151 among the control information includes a temperature outside the community written by the farmer according to the intensity of the light intensity and the temperature change (The upper limit of the temperature at which the crop can withstand), the microdrive part 130 automatically operates, and the temperature outside the community written by the farmer (the lower limit of the temperature that the farmer can tolerate) The micro-spraying unit 130 is operated and the temperature is continuously sprayed until the temperature reaches a temperature outside the stable community of the growth information stored in the server 200.

In addition, the temperature outside the community where the micro-sprinkling unit 130 operates differs depending on the crop of the farm because there is a difference in the temperature outside the community that can withstand each crop.

In addition, the temperature outside the basic community where the fine watering part 130 operates and the operation time can be inputted by the farmer through the terminal 300.

In addition, the farmer may access the server 200 through the terminal 300, and the farmer may transmit the manual control information to the fine water controller 151 to operate the fine water sprayer 130.

In addition, a preferred embodiment of the control information transmitted to the irrigation control unit 152 among the control information may include a control unit configured to control the irrigation amount according to the temperature and humidity of the soil and the growing state of the crop stored in the server 200, It is written according to the farming strategy of farmers. Through this, active irrigation is controlled based on the environmental information of the crop.

In addition, the farmer may connect the server 200 through the terminal 300, and the farmer may transmit the manual control information to the irrigation control unit 152 to operate the irrigation unit 120.

In addition, the control information transmitted to the CCTV control unit 153 among the control information is control information on the viewing direction of the CCTV 140 and whether or not the image is captured.

In addition, the farmer can access the server 200 through the terminal 300, and the farmer can manually transmit the control information to the CCTV controller 153 to manually select the gazing direction and the photographing state of the CCTV 140.

In addition, the control information may allow the farmer to input the control information directly to the server 200 through the terminal 300. [

The weather information stored in the data repository 240 is retrieved from an external institution server 400 storing weather information through the server communication unit 270. [

In addition, the control record stored in the data storage unit 240 is transmitted from the fine spraying control unit 151, the irrigation control unit 152, and the CCTV control unit 153 of the farmyard control unit 150 to the fine watering unit 130 and the watering unit 120 And the CCTV 140 are controlled. Therefore, in the control record, fine recording through the fine spraying unit 130, recording of water through the water supply unit 120, and recording of the shooting and gazing direction through the CCTV 140.

In addition, the fine recording is a recording of the operation start time of the fine water spraying unit 130, the time of operation of the fine spraying unit 130, and the temperature of the gaseous phase at the operation of the fine spraying unit 130, The operation start time of the water supply unit 120, the time when the water supply unit 120 is operated, and the temperature and humidity of the soil when the water supply unit 120 operates.

In addition, the type information stored in the data repository 240 is retrieved from the external institution server 400 or stored in advance in advance. The above-mentioned variety information is general information on various kinds of varieties.

In addition, the pest information stored in the data repository 240 is loaded from the external institution server 400 or stored in advance in advance.

FIG. 9 is a diagram illustrating an example in which the web monitoring unit 250 outputs environmental information as a graph in a smart orchard system for managing the overall management of the open hearth according to an embodiment of the present invention.

FIG. 10 is a diagram illustrating an example in which the web monitoring unit 250 outputs environmental information as a graph in a smart orchard system for managing the overall management of the open-ended oven according to an embodiment of the present invention.

In addition, a preferred embodiment of the web monitoring unit 250 provides environment information of a recent farmhouse as a real-time status as shown in FIGS.

In addition, the web monitoring unit 250 provides environment information according to the farmhouse according to the selection of the farmhouse through the terminal 300 by the farmhouse.

In addition, a preferred embodiment in which the web monitoring unit 250 provides environment information to a farmer is provided as a graph, a table, or general characters.

In addition, the selection of the farmer is a selection of one or more selection and presentation methods (table or graph or general character) and period of environment information.

9, the environmental information provided by the web monitoring unit 250 to the farmhouse includes accumulated temperature, community temperature (inside the community), outside temperature (outside the community), and outside air humidity (Humidity inside the community, not shown in FIG. 9) and precipitation (inside or outside of the community, not shown in FIG. 9), and additionally provide humidity .

In addition, the cumulative temperature is a cumulative temperature inside or outside the community during the period selected by the farmer.

In addition, the cluster temperature is temperature information of the temperature sensor unit 111a in the hyperplane cluster of the sensor unit 111 in the hyperplane cluster.

Also, the outside temperature is the temperature information of the outside gaseous temperature sensor unit 112a of the outside gaseous sensor unit 112.

In addition, the outside air humidity is information on the humidity of the outside air humidity sensor part 112b of the external air sensor part 112. [

In addition, the micellar shaker operation time point indicates a time point at which the micro sprayer 130 operates.

In addition, as shown in FIGS. 9 to 10, in the preferred embodiment in which the web monitoring unit 250 outputs the environment information as a graph, the X axis represents time and the Y axis uses one side or both sides, In the case of outputting only the temperature of the information, the temperature is indicated on the left or right side of the Y axis. In the case of outputting the temperature and humidity, the temperature is indicated on one side of the Y axis, the humidity is shown on the other side The temperature is indicated on one side of the Y axis and the amount of rainfall is indicated on the other side of the Y axis (on the opposite side of the one side). In the case of outputting the humidity and the rainfall amount, the humidity is shown on one side of the Y axis and the rainfall amount on the other side And in the case of outputting the temperature, humidity and rainfall amount, the temperature and the humidity are indicated on one side of the Y axis and the other side (On the opposite side of the one side) of the Y axis and humidity and rainfall on one side of the Y axis, and the other side of the Y axis (on the opposite side of the one side) indicates the amount of rainfall or the temperature and the amount of rainfall on one side of the Y axis Lt; / RTI >

In addition, the farmer can select the information represented by the X axis and the Y axis of the graph through the terminal 300, and displays the temperature, the humidity, and the amount of rainfall when selecting the light amount, the wind speed, and the wind direction.

In addition, the graph may be expressed in different colors depending on the environment information to be displayed, and the farmer may select the color through the terminal 300. [

In addition, a preferred embodiment in which the server communication unit 270 performs data communication includes an Internet, an intranet network, and a communication system such as Ethernet, CDMA, LTE, and IoT.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications can be made without departing from the invention. Accordingly, all such modifications and variations are intended to be included within the scope of the present invention.

100: Farm House Management Department
111: Sensor part in a plant cluster
111a: a temperature sensor unit in the plant community
111b: Humidity sensor section in the plant cluster
111c: a light amount sensor unit in a plant cluster
111d: Rainfall amount sensor unit in a plant community
111e: a wind speed sensor unit in a plant community
111f: a wind direction sensor section in a plant community
112: External weather sensor unit
112a: External gas temperature sensor unit
112b: an external vapor humidity sensor unit
112c: an external vapor light amount sensor unit
112d: an external vapor precipitation sensor unit
112e: an external gas velocity sensor unit
112f: an external gas phase direction sensor
113: soil sensor unit
113a: soil temperature sensor unit
113b: soil humidity sensor unit
114: Sensor node section
120: Watering section
121: water spray
122: Drip Irrigation
130:
140: CCTV
150:
151: fine spray controller
152:
153: CCTV control unit
160: Farm House Management Communication Department
200: Server
210:
220: Data analysis section
230: Data storage unit
240: Data Store
250: Web monitoring unit
251: Environment graph section
260:
270: server communication section
300:
400: external agency server

Claims (3)

In the smart orchard system for the comprehensive management of the Nogi plant,
A farmhouse that measures environmental information of a community within the farm and transmits data on the environmental information to the server 200 and supplies water to the crop according to the control information of the server 200 and controls the temperature of the community by spraying fine water A management unit 100;
The control unit 100 receives and stores the environment information measured through the farm management unit 100 and transmits the stored control information to the farm management unit 100 so that the farm management unit 100 can use the control information, 100) transmits the environment information to the terminal (300) so that the farmer can confirm the environment information through the terminal (300); And
The farmer of the farmhouse management unit 100 inputs the control information to the server 200 so that the farmer can input control information to the server 200 and transmits the control information to the server 200, A terminal 300 for outputting information to be checked;
, ≪ / RTI &
The farmhouse management unit (100)
A sensor unit 110 for measuring environmental information inside and outside the community and transmitting the measured environmental information to the server 200 through the farmer management communication unit 160;
A water supply unit 120 installed at a lower or central part of the crop in the community within the plantation and supplying water to the crop in the community within the plantation under the control of the farmhouse control unit 150;
A fine water spraying unit 130 installed at an upper end of the crop in a community within the plantation and spraying fine water under the control of the farmhouse control unit 150;
A CCTV (140) installed in a community within a cluster and capturing an image of the community in the village, transmitting the photographed image to the server (200), and changing the gazing direction under the control of the farmhouse control unit (150);
And controls the water supply unit 120, the fine spraying unit 130, and the CCTV 140 based on the control information of the server 200 received from the server 200 through the farmhouse management communication unit 160 A farmhouse control unit 150; And
A farm management communication unit 160 for data communication with the server 200;
, ≪ / RTI &
The water supply part (120)
A water spraying unit 121 installed at a central part of the crop in a community within a plantation area and supplying water to the crop in a sprinkler system under the control of the farmhouse control unit 150 in a sprinkler system; or
A drip irrigation unit 122 installed at a lower portion of the crop in the suburban community and supplying water at a constant rate to the crop in the suburban community under the control of the farmer control unit 150 at a constant rate, ,
The fine spraying unit 130 is provided with one fine spraying sprayer per crop,
The sensor unit 110
A sensor unit (111) in a plant community for measuring the temperature, humidity, light quantity, rainfall, wind speed and direction of the environment information within the plant community affecting the crop within the plant community;
An external weather sensor unit 112 for measuring temperature, humidity, light amount, rainfall amount, wind speed and direction of the external weather environment information outside the community in the plantation;
A soil sensor 113 for measuring the temperature and humidity of the soil, which is soil environmental information affecting the crop in the soil of the community within the plantation; And
The temperature, the humidity, the light amount, the rainfall, the wind speed, the wind direction, the temperature of the soil, and the humidity of the soil measured by the sensor unit 111, the external gas sensor unit 112 and the soil sensor unit 113 A sensor node unit 114 for assigning a sensor unique identification value to a type and a measured value;
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The soil sensor unit (113)
A soil temperature sensor unit 113a installed at 15 cm or less from the surface of the ground; And
A soil humidity sensor unit 113b installed at any one of 30 cm or less or 50 cm or less from the surface of the earth;
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The farmhouse control unit (150)
A fine spraying control unit 151 for controlling the fine spraying unit 130 according to the control information received from the server 200;
An irrigation control unit (152) for controlling the irrigation unit (120) according to the control information received from the server (200); And
A CCTV controller 153 for controlling the CCTV 140 according to the control information received from the server 200;
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The control information received from the server 200 through the farm management communication unit 160 by the micro-sprinkling control unit 151 may be transmitted to the outside of the community written by the farmer according to the intensity of the light intensity and the temperature, The microdrive part 130 automatically operates at a temperature (the upper limit of the temperature at which the crops can withstand) and the temperature outside the community written by the farmer to prevent frost damage The micro-spraying unit 130 is automatically operated at the lower limit, and the temperature is controlled to be continuously sprayed until the temperature reaches the outside of the community at a stable level in the growth information stored in the server 200,
The server (200)
A data collection unit 210 for collecting data on the environmental information transmitted from the farm management unit 100 through the server communication unit 270;
A data analysis unit 220 for converting the data collected through the data collection unit 210 into data matched with the farmhouse of the farmhouse management unit 100;
A data storage unit 230 for converting the converted data through the data analysis unit 220 into a standardized DB format;
(Environmental information), which is data converted through the data storage unit 230, and information on the growth of seven kinds of fruits (apples, pears, grapes, peaches, persimmon and mandarin) A data store 240 for storing the unique identification value, the farmhouse information, the control information, the weather information, the control record, the breed information, and the pest information in a standardized DB format;
A web monitoring unit 250 for outputting the environment information stored in the data storage 240 to the farmer based on the web through the terminal 300; And
A server communication unit (270) for performing data communication with at least one of the farm management unit (100) or the terminal (300);
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The data collecting unit 210,
(A) detecting a data packet on a network communicating with the farmhouse management unit (100) through the server communication unit (270); And
(B) collecting data on the environment information transmitted from the farmhouse management unit 100 by identifying the environmental information data in the data packet sensed through the step A;
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The step (B)
The environmental information data is discriminated in the data packet sensed through the step A by comparing the environmental information data with the predetermined format of the environmental information transmitted from the farmhouse management unit 100,
The data analyzer 220 analyzes the data,
(C) extracting sensor unique identification values assigned by the sensor node unit 114 from the data collected through the data collection unit 210;
(D) comparing the sensor unique identification value extracted in step C with a sensor unique identification value stored in the data storage 240;
(E) comparing the sensor unique identification value with the sensor unique identification value of the farmhouse code stored in the data store (240) when the sensor unique identification value is stored in the data store (240) Retrieving a code;
(F) extracting environmental information from the data collected through the data collecting unit (210) when there is a farmhouse code matched with the sensor unique identification value as a result of the step (E); And
(G) converting the environmental information extracted in the step (F), the sensor unique identification value, and the farmhouse code into the standardized data;
And a smart orchard system delete delete

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