KR20090027279A - Greenhouse wireless control device and control method using the same - Google Patents

Abstract

The present invention relates to a wireless radio control device and a control method using the same, in overcoming environmental inadequate factors such as greenhouse location, scale, greenhouse and distance between greenhouses in automating the greenhouse environment of each single-acting greenhouses clustered at a short distance. By grouping short-range single-type greenhouses and managing each one-type greenhouses wirelessly from the central control center to promote the management innovation of small-scale greenhouses and create an optimal greenhouse environment to improve productivity and efficient management of the greenhouse environment. Wireless terminals are installed in each single-acting greenhouse to collect greenhouse environmental information such as temperature, humidity, carbonic acid, and solar radiation through sensors, and the data transmitted through the wireless terminal can be remotely controlled by the central control unit. Analyzes the environment and analyzes and manages the recorded data through the computer to control the greenhouses and the central control unit. By wireless communication can be grouped managing single type greenhouse, and is characterized in that the possible remote management through the server.

Description

An controlling apparatus of wireless using greenhouse and that of using controling method}

The present invention relates to a wireless wireless control device and a control method using the same, and more specifically, a plurality of greenhouse systems according to the use, function of the system by setting the classification information by group, each device, by the altered temperature state, the abnormal information of each sensor, It transmits the fault information through the wireless terminal and monitors the transmitted data from the central control unit of the remote site, and can control the corresponding device of the obstacle element.Effective greenhouse without expansion of additional equipment for monitoring and control according to the expansion of the greenhouse It relates to a greenhouse wireless control device capable of controlling the environment and a control method using the same.

In general, crops grown in farm houses are affected by temperature, humidity, insolation, water supply, carbon dioxide, etc., and the quality of the growth rate, yield, taste, and the like. Therefore, in the environment of a farmhouse, such as a plastic house, a device for keeping temperature, humidity, and solar radiation constant has been used, which has a limitation that a farmer or a manager must operate only on site.

In addition, according to the industrialization of agriculture, a farmer has to manage a large number of houses such as greenhouses, barns, storage warehouses, etc., and thus, many houses have been difficult to manage.

As is well known, a wireless communication network is an open network configured to freely connect and use a common protocol called TCP / IP through a server or a wireless terminal through a wireless network of the other party to which anyone wants to connect. Various services such as text information delivery as well as text information delivery may be used.

As the use of wireless communication networks is rapidly increasing in Korea and around the world, its importance as a strategic tool for enhancing efficiency and productivity in all parts of the existing industry while expanding its scope from simply transmitting voice information to data information. This is rapidly increasing, and the number of operators using the wireless communication network is expanding.

On the other hand, in recent years, as the entire society has been industrialized and modernized, special crops, such as tomatoes or cherry tomatoes, melons, watermelons, strawberries, roses, etc., can be obtained by using a house such as a plastic house or a glass greenhouse instead of traditional rice farming in rural areas. More and more furniture, such as fruit and flower crops are growing.

Operators who grow special crops and fruits in such houses (or plastic houses) artificially manage the environment and access monitoring status, sprinkler operation or heating system in the house and manage them manually as they enter and exit the house from time to time.

However, in the conventional house management method as described above, the special crop operator has a disadvantage in that it takes not only the management difficulty that the manager must always reside in order to properly manage all of these, but also a separate labor cost.

In addition, there is a problem that a lot of loss occurs in the night and late night time due to failure to properly cope with the emergency situation in the house, for example, when the outside intrusion or urgent temperature / humidity management needs.

The opening and closing control device will be described briefly with reference to FIG. 1, a temperature sensor and a humidity sensor 11 and 12 for measuring an indoor temperature and an indoor humidity of a vinyl house, and a camera photographing and outputting the inside of the vinyl house. 13), the infrared sensor 14 to send an infrared signal to the inside of the plastic house to detect the intrusion, and the current position of the camera or the infrared sensor in response to the PWM signal input as the user operates the control switch described later A plurality of servomotors 15 to be changed and a plurality of control switches 16 are provided, and a user can open or close a part of the vinyl house by using a predetermined switch among the plurality of control switches 16. On the other hand, a user drives the servo motor 15 using a predetermined switch of the control switch 16 to adjust the position of the camera and the infrared sensor. And so as to light, it comprises an opening and closing device 17 for displaying the check room temperature and the indoor humidity through the temperature sensor 11 and humidity sensor 12.

The opening and closing device 17 of the control device as described above displays the temperature and humidity of the plastic house or glass greenhouse checked by the temperature sensor 11 and the humidity sensor 12 on the screen so that the user can know.

The user grasps the indoor environment state of the vinyl house or the glass greenhouse using the indoor temperature and the indoor humidity displayed on the screen, and operates the corresponding switch among the control switches 16 to open or close a part of the vinyl house or the glass greenhouse. To allow room temperature and room humidity to be adjusted.

In the case of the above-mentioned greenhouse control system, not only construction but also efficient operation is important. Due to the difficulty of continuous management of workers and the absence of after-sales company, it is difficult to approach and monitor and observe each time. It is happening.

The present invention has been made to solve the above problems, the object of which is to digitize the analog data collected from the various sensors in the sensor information collection unit of the various conditions of the greenhouse environment is transmitted to the wireless terminal by the control panel and each greenhouse It transmits at the designated channel frequency of, and classifies, stores and manages data of each channel received from the central control unit. The present invention is to provide a greenhouse wireless control device and a control method using the same by performing a user's command condition in a control panel installed for each greenhouse in a changing greenhouse environment to maintain optimal conditions for improving the environment of the greenhouse.

In addition, another object of the present invention is to allocate the channel frequency required for the extended greenhouse in accordance with the expansion of the greenhouse system, and the sensor of the temperature, humidity, solar radiation, rainfall, wind volume, wind speed, carbon dioxide, etc. of the greenhouse within the assigned frequency range Greenhouse wireless control device that can control efficient greenhouse environment without setting up additional equipment for monitoring as it can set and check abnormal information on set value to remote place and send control signal for the corresponding device. It is to provide a control method using the same.

The present invention for achieving the above object, a plurality of monitoring the temperature, humidity, solar radiation, rainfall, air volume, wind speed, carbon dioxide amount formed by various devices necessary to create the optimal growth conditions environment of plants in the greenhouse And a wireless terminal configured to communicate with each of the greenhouse systems and the signals of the channel frequencies that are allocated to the devices of the greenhouse system for each location, and receive connection signals of minimum and maximum thresholds set in the sensors of the devices. And the state of the plurality of greenhouse systems are classified and set by group, each device, and temperature change state, and are connected to the wireless terminal and the wireless communication network, and receive the access signals of the wireless terminal and classify the operating state of the greenhouse system. Control monitoring panel for monitoring the fault condition, and the analog data collected by the control monitoring panel connected to the control monitoring panel and the communication network By digitizing, classifying, storing and managing data according to the designated allocated channel frequencies, analyzing and comparing the real-time data of each greenhouse system, optimizing the data changing in real time according to various control and command conditions required for the greenhouse system, and collecting the greenhouse environment data for each greenhouse. It characterized in that it comprises a central control unit for classifying, analyzing, calculating, and storing.

At this time, another feature of the present invention is that the greenhouse system is installed inside the greenhouse to sense temperature and humidity sense, temperature and humidity sense, solar radiation and rainfall sensor for detecting light and rainfall installed in the greenhouse, the outside of the greenhouse Installed in the wind volume sensor and wind speed sensor for detecting the direction and speed, the sensing unit consisting of Co2 sense for detecting the amount of carbon dioxide in the greenhouse, and connected to the sensor unit via a communication line, the overall operation of the greenhouse system A microcomputer controlling the microcomputer, a sensor setting unit connected to the microcomputer to set whether the sensors of the sensor unit operate according to the control signal of the microcomputer, and set threshold values of minimum and maximum values of abnormal information required for driving; And temperature according to driving of each sensor of the sensor unit set by the sensor setting unit according to the control signal of the microcomputer, A sensor information collection unit for collecting humidity, solar radiation, rainfall, air volume, wind speed, Co2 information, abnormal operation of the sensor unit, and fault state information, and connected to the microcomputer, and the information of the sensor according to the operation of the sensor unit; A channel setting unit configured to set channel frequencies assigned to each greenhouse of the plurality of greenhouse systems and frequencies of each device and each sensor for transmitting according to a frequency set in a wireless terminal, and are connected to the microcomputer, and the plurality of greenhouse systems The group governor for classifying and designating the greenhouse system according to the frequency unit of a certain channel or the element of a specific greenhouse environment for the integrated management of the channel, connected to the microcomputer, and by the channel setter, sensor setter, and group governor Display unit for displaying the setting, the specified value or the status of the greenhouse system, or display the corresponding information according to the control signal of the microcomputer And a transmitter connected to the micom and transmitting information to the corresponding wireless terminal based on the set frequency of the abnormal signal and status information of each sensor of the sensor unit received by the sensor information collection unit according to the control signal of the microcomputer. It is preferable to be configured.

In addition, the central control unit displays the abnormal information of the specific greenhouse received in the control panel via the wireless terminal, or the state of the plurality of greenhouse systems classified by the group, each device, and the altered temperature state is stored A status display unit for displaying and monitoring the status information of the devices for each greenhouse, an alarm display unit for displaying the abnormal state of the greenhouse according to the alarm information of the specific greenhouse displayed on the status display unit through an alarm sound, and the status display unit According to the condition of the greenhouse system designated by the specific greenhouse and group, the ceiling, side window, horizontal curtain, vertical curtain, shading, watering, nutrient solution, flow fan, ventilation fan, humidifier, heater, lighting, alarm Peripheral device driver that can drive the device of the device, and the communication with each device and wireless terminal of the greenhouse according to the expansion of the greenhouse system The channel expansion unit for allocating and setting the corresponding channel frequency according to the extension to indicate the state of the greenhouse, and the greenhouse according to the frequency unit of a certain channel or the elements of a specific greenhouse environment for the integrated management of the plurality of greenhouse systems. It is preferable that the system further comprises a group setting unit for setting a group, a device, and a temperature change state.

The present invention for achieving the above object is the step of assigning and setting the required channel frequency for each greenhouse in order to check the state and abnormality of the greenhouse in the channel expansion unit of the central control unit, the channel allocated by the channel expansion unit Setting a frequency for each greenhouse device according to a channel allocated according to frequency and setting a threshold for each device, a minimum and a maximum value of each greenhouse device in a wireless terminal assigned to the greenhouse, and the group of the central control unit. Setting a plurality of greenhouse systems in a specific group by group, device, and temperature change in consideration of the condition and usage conditions of the greenhouse in the setting unit, the state information of the greenhouse according to the driving of the sensor unit in the sensor information collecting unit, Collecting an abnormal signal and transmitting the abnormal signal to the wireless terminal; and a frequency value and a threshold value set by the wireless terminal. Transmitting information, status information of a specific greenhouse, and an abnormal signal to the control panel; and connecting the greenhouse status information and the abnormal signal transmitted and stored to the control panel through the communication network and receiving the information from the central control unit. And displaying a warning according to the abnormal signal or driving the peripheral device of a specific greenhouse system according to the information displayed on the status display unit.

Greenhouse wireless control device and a control method using the same according to the present invention digitized collected information according to various conditions of the greenhouse environment is transmitted through a wireless terminal and transmitted to the designated channel frequency of each greenhouse, each received by the central control unit It classifies, saves and manages the data of the channels of the user and analyzes and compares the data entered by the user with the real-time data of the received greenhouses. Implementing conditions can improve the greenhouse environment and maintain optimal conditions.

In addition, it is possible to classify the greenhouse system by group, each device, and alternating temperature according to the purpose and function of the system, and allocate the necessary channel frequency by device and sensor according to the expansion of the greenhouse system. It can be checked in or transmit control signal to the device, and can provide rapid greenhouse recovery and remote greenhouse environment in case of system failure.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a block diagram showing the overall configuration of the greenhouse radio control apparatus according to the present invention, Figure 3 is a block diagram showing the detailed configuration of each greenhouse system of Figure 2, Figure 4 is an internal device of the greenhouse system of Figure 2 5 is a block diagram showing the configuration of the sensor unit of the greenhouse system of Figure 2, Figure 6 is a block diagram showing the configuration of the central control unit of Figure 2, Figure 7 is a greenhouse according to the present invention The flowchart which shows the control method of a radio | wireless control apparatus is shown.

Referring to the configuration and operation of the present invention with reference to the accompanying Figure 2, the temperature, humidity, solar radiation, rainfall, air volume, wind speed, carbon dioxide amount produced by various devices necessary to create the optimal growth conditions environment of plants in the greenhouse Represents a plurality of greenhouse systems (S) for monitoring, 200 is assigned to each of the devices of the greenhouse system (S) for each set and communicate with the signal of the set channel frequency, and the minimum set in the sensor of each device, Receive a connection signal of a threshold of maximum value.

Reference numeral 400 denotes a control and monitoring panel, and the state of the plurality of greenhouse systems S is classified and set for each group, for each device, and for alternating temperature, and is connected to the wireless terminal 200 and the wireless communication network 300. Receiving the access signal of the wireless terminal 200, and monitors the operating state and the failure state of the classified greenhouse system (S), 500 is connected to the control monitoring panel 400 and the communication network 300 and the control monitoring panel Digitize the analog data collected in 400 to classify and manage the data according to the assigned channel frequencies, and analyze and compare the real-time data of each greenhouse system (S) in real time according to various control and command conditions required for the greenhouse system. It is a central control unit that classifies, analyzes, calculates and stores the collected greenhouse environment data by greenhouse by optimizing the data.

Referring to the configuration and operation of the greenhouse system S with reference to the overall block diagram of the present invention with reference to Figures 3 and 4 attached, reference numeral 110 denotes a sensor, the configuration is the greenhouse system (S) is installed inside the greenhouse senses the temperature and humidity (111) and humidity sense 112, and the solar sensor 113 and the rain sensor 114 for detecting light and rainfall installed in the greenhouse, The air flow sensor 115 and the wind speed sensor 116 is installed outside the greenhouse to detect the direction and speed of the wind, and the Co ₂ sense 117 to detect the amount of carbon dioxide in the greenhouse.

Reference numeral 120 is a microcomputer, connected to the sensor unit 110 through a communication line, and controls the overall operation of the greenhouse system (S), 130 is connected to the microcomputer 120 to the According to a control signal, a sensor setting unit is configured to set whether each sensor of the sensor unit 110 operates, and threshold values of minimum and maximum values of abnormal information required for driving.

In addition, reference numeral 140 denotes a peripheral device of the greenhouse system (S), as shown in Figure 5, skylights, side windows, horizontal curtains, shading, light source, guanyu, nutrient solution, ventilation fan, flow fan, humidifier, heater , Lighting, alarm, etc. are included, and 150 is connected to the microcomputer 120, and the sensor unit 110 set by the sensor setting unit 130 according to the control signal of the microcomputer 120. The sensor information collecting unit collects temperature, humidity, solar radiation, rainfall, air volume, wind speed, Co ₂ information and abnormal operation of the sensor unit 110 and fault state information according to driving of each sensor.

Reference numeral 160 is a channel setting unit, which is connected to the microcomputer 120 and transmits the information of the sensor according to the frequency set in the wireless terminal 200 according to the operation of the sensor unit 110. It sets the channel frequency assigned to each greenhouse of the greenhouse system (S) and the frequency of each device and each sensor, 170 is connected to the microcomputer 120, the schedule for the integrated management of the plurality of greenhouse system (S) Represents a group of governments that classify and designate greenhouse systems according to the frequency units of the channel or elements of a particular greenhouse environment.

Reference numeral 180 is a display unit, which is connected to the microcomputer 120 and sets or specifies a value or state of the greenhouse system by the channel setting unit 160, the sensor setting unit 130, and the group designating unit 170. Display or display the corresponding information according to the control signal of the microcomputer 120, 190 is connected to the microcomputer 120, received by the sensor information collection unit 150 in accordance with the control signal of the microcomputer 120 Represents a transmitter for transmitting information to the wireless terminal 200 by the set frequency of each sensor abnormal signal, the status information of the sensor unit 110.

Looking at the configuration and operation with reference to Figure 6 to monitor and control the state and abnormality of the greenhouse system (S) according to the present invention, reference numeral 510 is a status display, connected to the central control unit 500 in the center Display the abnormal information of the specific greenhouse received by the control panel 400 through the wireless terminal 200 according to the control signal of the control unit 500, or classified by the group, by each device, by the temperature change state specified The state of a plurality of greenhouse systems (S) is stored to display and monitor the state information of the devices for each greenhouse.

Reference numeral 520 is an alarm display unit, is connected to the central control unit 500, according to the control signal of the central control unit 500 according to the abnormality information of the specific greenhouse displayed on the status display unit 510 to the abnormal state of the greenhouse. By using an alarm sound, etc., 530 is the communication network 300 according to the state of the greenhouse system (S) specified for each specific greenhouse, group displayed on the state display unit 510 according to the control signal of the central control unit 500. ) Indicates the peripheral drive unit that can drive the ceiling, side windows, horizontal curtains, vertical curtains, shading, watering, nutrient solution, flow fan, ventilation fan, humidifier, heater, lighting, alarm device of the greenhouse.

Reference numeral 540 denotes a channel expansion unit, which communicates with each device and wireless terminal 200 of the corresponding greenhouse according to the expansion of the greenhouse system S, and allocates the corresponding channel frequency according to the extension in order to display the state of the corresponding greenhouse. Set the channel, and 550 sets the greenhouse system (S) by group, device, or temperature change state according to the frequency unit of a certain channel or elements of a specific greenhouse environment for the integrated management of the plurality of greenhouse systems (S). The group setting section is shown.

Referring to FIG. 7 attached to the control method of the greenhouse radio control apparatus according to the present invention having the configuration as described above is as follows.

First, in the configuration as described above, the channel expansion unit 540 of the central control unit 500 is set by assigning the required channel frequency for each greenhouse in order to check the state and abnormality of the greenhouse (see step S10).

The devices in each greenhouse, that is, the temperature sensor 111, the humidity sensor 112, the solar sensor 113, the rainfall sensor 114, and the air volume according to the allocated channel according to the channel frequency allocated by the channel expansion unit 540. Sensor 115, Wind Speed Sensor 156, Co ₂ According to the frequency assigned to the sensor 117, the corresponding frequency is set to the door sensor 15 and the surveillance camera sensor 17 (see step S20), and the frequency of each device in the wireless terminal 200 assigned to the greenhouse, Set thresholds for minimum and maximum values for each greenhouse device (see step S30).

In the group setting unit 550 of the central control unit 500, two or more greenhouse systems S for each group, device, and temperature change are set in a specific group in consideration of the state of the greenhouse and usage requirements (see step S40). According to the threshold value of the sensor unit 110 set by the sensor information collecting unit 150 collects the state information, fault information of the greenhouse according to the operation of each sensor unit 110 to the control signal of the microcomputer 120 Accordingly, the signal is transmitted to the wireless terminal 200 through the transmitter 180 (see step S50).

Transmitting the sensor information transmitted by the wireless terminal 200 to the control monitoring panel 400 through the communication network 300 (see step S60), and to the control monitoring panel 400 and the wireless communication network 300 The connected central control unit 500 transmits a corresponding connection signal (see step S70), and information of the device of each greenhouse system S collected by the sensor information collecting unit 150 is displayed on the state display unit 510. (See step S80)

According to the information displayed on the status display unit 510, the peripheral device of the specific greenhouse system, that is, the ceiling, side window, horizontal curtain, vertical curtain, shading, watering, nutrient solution, flow fan, ventilation A fan, a humidifier, a heater, a lighting device is driven, or an alarm is displayed on the alarm display unit 520 according to an abnormal signal.

The present invention is not limited to the embodiments described above, and various modifications and changes can be made by those skilled in the art, which are included in the spirit and scope of the present invention as defined in the appended claims.

Greenhouse wireless control device and control method using the same according to the present invention by setting the greenhouse system according to the purpose and function of the system, grouped by group, by each device, the temperature change state, by digitalizing the collected information according to various conditions of the greenhouse environment Transmitted through the wireless terminal and transmitted to the designated channel frequency of each greenhouse, and classifying and managing the respective channel data of the greenhouse system, and the value set by analyzing and comparing the real-time data of each received greenhouse with the data input by the user It can check the abnormality information about remotely or send control signal to the relevant device, so it can be quickly recovered from the remote place according to system failure.

1 is a block diagram for explaining the configuration of a conventional greenhouse management apparatus

Figure 2 is a block diagram showing the overall configuration of the greenhouse radio control apparatus according to the present invention

3 is a block diagram showing the detailed configuration of each greenhouse system of FIG.

4 is a view showing the configuration of the internal device of the greenhouse system of FIG.

5 is a block diagram showing the configuration of a sensor unit of the greenhouse system of FIG.

6 is a block diagram showing the configuration of the central control unit of FIG.

7 is a flow chart illustrating a control method of the greenhouse radio control apparatus according to the present invention.

<Description of main parts of drawing>

110: sensor unit 120: microcomputer

130: sensor setting unit 140: peripheral device

150: sensor information collecting unit 160: channel setting unit

170: group governor 180: display unit

190: transmitting unit 200: wireless terminal

300: communication network 400: control panel

500: central control unit 510: status display unit

520: Alarm display unit 530: Peripheral device driver

540: channel expansion unit 550: group setting unit

Claims (4)

A number of greenhouse systems that monitor the temperature, humidity, solar radiation, rainfall, wind volume, wind speed, and carbon dioxide levels generated by various devices necessary to create an optimal growth environment for plants in the greenhouse; A wireless terminal which is allocated to each device of the greenhouse system and communicates with a signal of a set channel frequency, and receives connection signals of minimum and maximum thresholds set in the sensors of each device; The state of the plurality of greenhouse systems are classified and set by group, each device, and temperature change state, and are connected to the wireless terminal and the wireless communication network to receive the access signals of the wireless terminal, and the operating state and failure of the classified greenhouse system. With control panel to monitor the status, Connected to the control panel and the communication network, the analog data collected by the control panel is digitized to classify, store and manage data for each assigned channel frequency, and analyze and compare the real-time data of each greenhouse system to control and command the greenhouse system. Greenhouse wireless control device comprising a central control unit for classifying, analyzing, calculating, and storing the collected greenhouse environment data for each greenhouse by optimizing data changing in real time according to conditions The method of claim 1, The greenhouse system is installed inside the greenhouse to sense temperature and humidity sense temperature and humidity, solar radiation and rain sensor to detect the light and rainfall installed in the greenhouse, and the outside of the greenhouse wind direction and speed A sense unit consisting of a wind volume sensor and a wind speed sensor for detecting a temperature, and a Co ₂ sense for sensing the amount of carbon dioxide in a greenhouse; A microcomputer connected to the sensor unit through a communication line and controlling overall operation of the greenhouse system; A sensor setting unit connected to the microcomputer to set whether the sensors of the sensor unit operate according to the control signal of the microcomputer, and set threshold values of minimum and maximum values of abnormal information required for driving; Connected with the microcomputer, the temperature, humidity, solar radiation, rainfall, air volume, wind speed, Co ₂ information and the sensor unit according to the driving of each sensor of the sensor unit set by the sensor setting unit according to the control signal of the microcomputer Sensor information collection unit for collecting the operation, failure status information, The channel frequency assigned to each greenhouse of the plurality of greenhouse systems and the frequency of each device and each sensor are connected to the microcomputer to transmit the information of the corresponding sensor according to the frequency set in the wireless terminal according to the operation of the sensor unit. Channel setting unit to set, A group governor connected to the microcomputer and classifying and designating a greenhouse system according to a frequency unit of a predetermined channel or an element of a specific greenhouse environment for integrated management of the plurality of greenhouse systems; A display unit connected to the micom and configured to display values specified or designated by the channel setting unit, sensor setting unit, and group designator, or the state of the greenhouse system, or to display corresponding information according to the control signal of the microcomputer; It is connected to the microcomputer, and further comprising a transmitter for transmitting information to the corresponding wireless terminal by the set frequency of the abnormal signal, the status information of each sensor of the sensor unit received from the sensor information collection unit according to the control signal of the microcomputer Greenhouse wireless alarm monitoring device characterized in that it becomes. The method of claim 1, The central control unit displays abnormality information of the specific greenhouse received by the control panel through the wireless terminal, or stores the state of a plurality of greenhouse systems, which are classified by the group, each device, and temperature change state, and store each greenhouse. Status display unit for displaying and monitoring the status information of each device, An alarm display unit displaying an abnormal state of the corresponding greenhouse through an alarm sound according to the abnormal information of the specific greenhouse displayed on the state display unit; According to the status of the greenhouse system designated by the specific greenhouse and group indicated on the status display unit, the ceiling, side window, horizontal curtain, vertical curtain, shading, irrigation, nutrient solution, flow fan, ventilation fan, humidifier and heater Peripheral drive unit that can drive the equipment of lighting, alarm, A channel expansion unit for allocating and setting a corresponding channel frequency according to the expansion to display the state of the greenhouse by communicating with each device and the wireless terminal of the greenhouse according to the expansion of the greenhouse system; Greenhouse wireless, characterized in that it further comprises a group setting unit for setting the greenhouse system according to the frequency unit of a predetermined channel or elements of a specific greenhouse environment for the integrated management of the plurality of greenhouse systems for each group, device, temperature change state Control unit. In the method of managing the wireless control monitoring of the greenhouse system using the apparatus of claim 1, Allocating and setting channel frequencies necessary for each greenhouse to check the state and abnormality of the greenhouse in the channel expansion unit of the central control unit; According to the channel allocated by the channel expansion unit, the frequency is set for each greenhouse device according to the allocated channel, and the radio terminal assigned to the greenhouse sets the threshold for each device, the minimum and maximum value of each greenhouse device. Steps, Setting a plurality of greenhouse systems in a specific group by group, by device, and by varying temperature in consideration of the state of the greenhouse and the use requirements in the group setting unit of the central control unit; Collecting the state information of the greenhouse according to the driving of the sensor unit and the phase signal from the sensor information collecting unit, and transmitting the abnormal signal to the wireless terminal; Transmitting a value and a threshold value of a frequency set by the wireless terminal, state information of a specific greenhouse, and an abnormal signal to a control panel; Connecting the greenhouse state information and the abnormal signal transmitted and stored to the control panel through the communication network, receiving the information from the central control unit, and displaying the corresponding information on the state display unit; And driving the peripheral device of a specific greenhouse system through the peripheral device driving unit according to the information displayed on the status display unit, or displaying an alarm according to an abnormal signal.

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