CN210445075U - Agricultural intelligent greenhouse monitoring system based on Internet of things - Google Patents

Abstract

The utility model discloses an agricultural intelligent warmhouse booth monitored control system based on thing networking. The system comprises a greenhouse body, wherein a control box, a data acquisition device and an adjusting device are arranged inside the greenhouse body, the data acquisition device comprises a greenhouse environment acquisition unit, the greenhouse environment acquisition unit comprises a sensor module and a ZigBee wireless module, the sensor module is connected with a main controller in a wireless mode, the main controller compares a voltage value acquired by the sensor module with a preset value in the main controller, and the adjusting device is adjusted according to a comparison result. The utility model provides an agricultural intelligent warmhouse booth monitored control system based on thing networking not only can reflect warmhouse booth's environmental change in real time to can carry out regulation and control according to the environmental change, be favorable to crops to grow, but also improve warmhouse booth's security, degree of automation and control accuracy, convenient operation, the long-range warmhouse booth condition of understanding of help peasant household has reduced intensity of labour.

Description

Agricultural intelligent greenhouse monitoring system based on Internet of things

Technical Field

The utility model relates to a warmhouse booth technical field especially relates to an agricultural intelligence warmhouse booth monitored control system based on thing networking.

Background

China is a big agricultural country, agricultural facilities are highly valued by the country all the time, and in recent years, with the rapid development of computers, Internet of things and electronic industries, many agricultural facilities are concerned by scientific and technical personnel. The improvement of people's living standard, the output of many agricultural and sideline products is also climbed thereupon, leads to warmhouse booth's planting area to enlarge thereupon too, and traditional detection to each item index in the warmhouse booth is all artifical going on, and not only work load is big, and efficiency is lower moreover. At present, the regulation and control of greenhouse to environmental change is very important, and conventional regulation and control relies on the mode of manual supervision to realize, and the technique is laggard behind, firstly needs increase labour's cost, secondly must be at the field regulation and control, and the degree of accuracy of regulation and control can not guarantee, and fourth is that environmental parameter can not in time discover when transfiniting. When crops are mature, the problems of theft are often encountered, once the crops are stolen, great loss is caused to growers, and the greenhouse theft prevention has no good method. In order to solve the problems, a new technical scheme is provided.

Disclosure of Invention

The utility model provides an agricultural intelligent warmhouse booth monitored control system based on thing networking not only can reflect warmhouse booth's environmental change in real time to can carry out regulation and control according to the environmental change, be favorable to crops to grow, improve crops output, but also improved warmhouse booth's security, degree of automation and control accuracy, convenient operation, the long-range warmhouse booth condition of knowing of help peasant household has reduced intensity of labour.

In order to achieve the above object, the utility model provides a following scheme:

an agricultural intelligent greenhouse monitoring system based on the Internet of things comprises a greenhouse body, wherein a control box, a data acquisition device and an adjusting device are arranged in the greenhouse body, the control box comprises a main controller, a storage battery, a wind-solar complementary controller, a motor controller and a wireless transmission device, a greenhouse supporting framework is arranged above the greenhouse body, a solar cell panel is paved on the greenhouse supporting framework, an amorphous silicon film is attached to the solar cell panel, an anti-ultraviolet layer is arranged in the amorphous silicon film, a supporting rod is further arranged on the greenhouse supporting framework, the bottom of the supporting rod is fixedly connected with the greenhouse supporting framework, a wind power generation device is arranged at the top of the supporting rod, the solar cell panel and the wind power generation device are respectively connected with the wind-solar complementary controller, the wind-solar complementary controller is connected with one end of the storage battery, the other end of the storage battery is connected with the main controller, the main controller is connected with a remote service terminal through the wireless transmission device, one side of the greenhouse body is provided with a rolling door, a rotating shaft and a rolling door driving motor, the rotating shaft is arranged at the top of the rolling door, the rolling door driving motor is fixedly arranged on the greenhouse body, the rolling door is in transmission connection with the rolling door driving motor through the rotating shaft, the rolling door driving motor is connected with the main controller through the motor controller, a face recognizer, a human body infrared sensor and an alarm device are arranged right above the rolling door, the face recognizer, the human body infrared sensor and the alarm device are fixed on the greenhouse body, and the face recognizer, the human body infrared sensor and the alarm device are all connected with the main controller, the greenhouse intelligent control system comprises a face recognizer, a data acquisition device and an adjusting device, wherein the face recognizer is provided with a first camera used for acquiring facial information of people entering a greenhouse, the starting end of the first camera is connected with a main controller, the output end of the first camera is connected with the face recognizer, the data acquisition device comprises a greenhouse environment acquisition unit, the greenhouse environment acquisition unit comprises a sensor module and a ZigBee wireless module, the sensor module is in wireless connection with the main controller through the ZigBee wireless module, the main controller compares a voltage value acquired by the sensor module with a preset value in the main controller, and the adjusting device is adjusted according to a comparison result.

Optionally, the sensor module comprises an air temperature sensor, an air humidity sensor, a carbon dioxide concentration sensor, a soil PH sensor and an illumination sensor, wherein the air temperature sensor, the air humidity sensor, the carbon dioxide concentration sensor, the soil PH sensor and the illumination sensor are all connected through the ZigBee wireless module and the input end of the main controller.

Optionally, the adjusting device includes mutually supporting and being used for temperature regulation's heating device and cooling device, mutually supporting and being used for humidity control's dehumidifying device and drying device and carbon dioxide generator, soil PH adjusting device, lighting device, heating device, cooling device, dehumidifying device, drying device, carbon dioxide generator, soil PH adjusting device and lighting device all with main control unit's output is connected.

Optionally, the heating device and the cooling device are arranged in the greenhouse body in groups, and the dehumidifying device and the drying device are arranged in the greenhouse body in groups.

Optionally, the lighting device includes a PWM driving dimming circuit and a plurality of LED lights, the LED lights are disposed at the top of the greenhouse body, and the LED lights are connected to the main controller through the PWM driving dimming circuit.

Optionally, the data acquisition device includes still includes the video acquisition unit, the video acquisition unit includes second camera and image processing module, the second camera sets up this internal four corners of big-arch shelter, image processing module's one end with the second camera is connected, image processing module's the other end with main control unit is connected.

Optionally, the system further comprises a control panel, and the control panel is arranged outside the control box.

Optionally, the control panel includes an LCD display screen, a control key is arranged above the LCD display, and the LCD display screen and the control key are both connected to the main controller.

Optionally, the alarm device includes a light emitting diode and a buzzer.

Optionally, the remote service terminal is a mobile phone, a computer or a tablet computer.

Compared with the prior art, the technology has the following beneficial effects:

the utility model provides a pair of agricultural intelligent warmhouse booth monitored control system based on thing networking, produce infrared sensing signal and with infrared sensing signal transmission to main control unit when human infrared sensor senses the visitor, after main control unit received human infrared signal, control first camera and open and gather the face image, first camera acquires user's face image information, and send face image information to face recognizer, main control unit compares with the face image information of saving in the main control unit according to the face image information that face recognizer gathered, when main control unit detects that face image information that face recognizer gathered is unanimous with the face image information of saving in the main control unit, main control unit controls the action of shutter drive motor through the motor control unit, open the shutter; when the face image information that face recognition ware that main control unit detected gathered was inconsistent with the face information of prestoring, main control unit control alarm device sent alarm signal, produced the warning effect to the lawless persons who tries to get into warmhouse booth, only human infrared sensor senses the visitor moreover, and first camera is gathered and is just opened, is favorable to the electric power energy saving and prolongs first camera life. The solar cell panel is characterized in that an anti-ultraviolet layer is arranged in the amorphous silicon thin film, ultraviolet rays which are not beneficial to plant growth can be filtered out through the anti-ultraviolet layer, favorable light for plant growth is allowed to irradiate into the greenhouse, the area of the thin film battery can be enlarged for enabling the photoelectric conversion efficiency of the amorphous silicon thin film battery component to be higher, and meanwhile, the area is required to be enlarged and the characteristic of low economy is required to be met. In order to effectively utilize wind energy and solar energy, realize wind-solar complementation and improve the power generation efficiency, a solar panel and a wind power generation device are used as power supply devices, the solar panel and the wind power generation device are respectively connected with a wind-solar complementation controller, and the wind-solar complementation controller is connected with a storage battery, so that the energy is saved, and the energy conservation and the environmental protection are facilitated. The system collects the temperature and humidity value in the air in the greenhouse, the carbon dioxide concentration value in the greenhouse, the pH value of soil and the illumination value in the greenhouse through the air temperature sensor, the air humidity sensor, the carbon dioxide concentration sensor, the soil pH sensor and the illumination sensor which are dispersedly arranged in the greenhouse, then transmits the collected information to the main controller through the ZigBee wireless module, when the collected information has deviation with the pre-stored parameters of the main controller, the main controller sends an action command to the adjusting device to control the adjusting device to adjust the temperature, the carbon dioxide concentration, the soil pH value or the illumination, and automatically collects, transmits and feeds back the information through the temperature, the carbon dioxide concentration, the soil pH value and the illumination parameter, so that the automation degree of the environment adjustment in the greenhouse is high, and the labor intensity existing in the traditional manual measurement and adjustment is avoided, the efficiency is low, and the system has high automation degree, good control precision and convenient operation.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a control schematic diagram of an agricultural intelligent greenhouse monitoring system based on the Internet of things according to the embodiment of the utility model;

fig. 2 is the embodiment of the utility model provides an agricultural intelligent warmhouse booth monitored control system's based on thing networking structural schematic.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides an agricultural intelligent warmhouse booth monitored control system based on thing networking not only can reflect warmhouse booth's environmental change in real time to can carry out regulation and control according to the environmental change, be favorable to crops to grow, improve crops output, but also improved warmhouse booth's security, degree of automation and control accuracy, convenient operation, the long-range warmhouse booth condition of knowing of help peasant household has reduced intensity of labour.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

FIG. 1 is a control schematic diagram of an agricultural intelligent greenhouse monitoring system based on the Internet of things according to an embodiment of the present invention, as shown in FIG. 1, a control box, a data acquisition device and an adjustment device are arranged inside a greenhouse body 31, the control box includes a main controller 14, a storage battery 4, a wind-solar hybrid controller 3, a motor controller 15 and a wireless transmission device 24, the solar panel 1 and the wind-solar hybrid controller 2 are respectively connected with the wind-solar hybrid controller 3, the wind-solar hybrid controller 3 is connected with one end of the storage battery 4, the other end of the storage battery 4 is connected with the main controller 14, the main controller 14 is connected with a remote service terminal 25 through the wireless transmission device 24, the face recognizer 6, the human body infrared sensor 7 and the alarm device 26 are all connected with the main controller 14, the greenhouse face recognition device comprises a face recognition device 6, a first camera 5 used for collecting face information of people entering a greenhouse is arranged on the face recognition device 6, the starting end of the first camera 5 is connected with a main controller 14, the output end of the first camera 5 is connected with the face recognition device 6, the data collection device comprises a greenhouse environment collection unit, the greenhouse environment collection unit comprises a sensor module 8 and a ZigBee wireless module 9, the sensor module 8 is in wireless connection with the main controller 14 through the ZigBee wireless module 9, the main controller 14 compares a voltage value collected by the sensor module 8 with a preset value in the main controller 14, and the adjusting device is adjusted according to a comparison result. Sensor module 8 includes air temperature sensor, air humidity sensor, carbon dioxide concentration sensor, soil PH sensor and light sensor, air temperature sensor, air humidity sensor, carbon dioxide concentration sensor, soil PH sensor and light sensor all pass through zigBee wireless module 9 with main control unit 14's input is connected. The adjusting device comprises a heating device 17 and a cooling device 18 which are matched with each other and used for temperature adjustment, a dehumidifying device 19 and a drying device 20 which are matched with each other and used for humidity adjustment, a carbon dioxide generator 21, a soil PH adjusting device 22 and a lighting device 23, wherein the heating device 17, the cooling device 18, the dehumidifying device 19, the drying device 20, the carbon dioxide generator 21, the soil PH adjusting device 22 and the lighting device 23 are all connected with the output end of the main controller 14. The heating device 17 and the cooling device 18 are arranged in the greenhouse body 31 in a group, and the dehumidifying device 19 and the drying device 20 are arranged in the greenhouse body 31 in a group. The lighting device 23 comprises a PWM driving dimming circuit and a plurality of LED lighting lamps, the LED lighting lamps are arranged at the top position in the greenhouse body 31, and the LED lighting lamps are connected with the main controller 14 through the PWM driving dimming circuit. The illumination sensor collects illumination signals and sends the illumination signals to the main controller 14, the main controller 14 controls the PWM driving dimming circuit to output PWM modulation signals to the LED illuminating lamp after processing, and if sunlight is strong, one PWM modulation signal is output to dim the brightness of the LED illuminating lamp. Otherwise if the sunlight is darker, a PWM modulation signal is output to adjust the brightness of the LED illuminating lamp to be bright, the design is reasonable, the use is convenient, and the energy waste is avoided.

The data acquisition device comprises a video acquisition unit, the video acquisition unit comprises a second camera 10 and an image processing module 11, the second camera 10 is arranged at four corners in the greenhouse body 31, one end of the image processing module 11 is connected with the second camera 10, the other end of the image processing module 11 is connected with a main controller 14, image information in the greenhouse can be fed back to a remote service terminal 25 through the main controller 14 in real time, and conditions in the greenhouse can be remotely monitored. The system also comprises a control panel which is arranged on the outer side of the control box. The control panel comprises an LCD display screen 12, a control key 13 is arranged above the LCD display 12, and the LCD display screen 12 and the control key 13 are both connected with the main controller 14. The alarm device 26 includes a light emitting diode and a buzzer. The remote service terminal 25 is a mobile phone, a computer or a tablet computer. The main controller 14 is of a model STM32F103VBT 6. The model of the human body infrared sensor 7 is D203S type pyroelectric human body infrared sensor. The control box is characterized by further comprising a GPS positioning module, the GPS positioning module is connected with the main controller 14 and comprises an antenna and a GPS chip, and the solar cell panel 1 is a polycrystalline silicon solar thin film battery. The wireless transmission device 24 is one or more of a bluetooth communication module, a WiFi communication module, a GPRS communication module and a ZigBee communication module. The heating device 17 is a heater, the cooling device 18 is a refrigerator, the dehumidifying device 19 is a dehumidifier, and the drying device 20 is a dryer.

Fig. 2 is a schematic structural view of an intelligent agricultural greenhouse monitoring system based on the internet of things according to an embodiment of the present invention, as shown in fig. 2, the intelligent agricultural greenhouse monitoring system based on the internet of things comprises a greenhouse body 31, a greenhouse supporting framework 28 is arranged above the greenhouse body 31, a solar cell panel 1 is laid on the greenhouse supporting framework 28, an amorphous silicon film is attached to the solar cell panel 1, an ultraviolet-proof layer is arranged in the amorphous silicon film, a supporting rod 27 is further arranged on the greenhouse supporting framework 28, the bottom of the supporting rod 27 is fixedly connected with the greenhouse supporting framework 28, a wind power generation device 2 is arranged on the top of the supporting rod 27, a rolling gate 30, a rotating shaft 29 and a rolling gate driving motor 16 are arranged on one side of the greenhouse body 31, the rotating shaft 29 is arranged on the top of the rolling gate 30, shutter door driving motor 16 fixed mounting be in on the big-arch shelter body 31, shutter door 30 passes through axis of rotation 29 with shutter door driving motor 16 transmission is connected, shutter door driving motor 16 passes through motor controller 15 with main control unit 14 is connected, install face identification ware 6, human infrared sensor 7 and alarm device 26 directly over shutter door 30, face identification ware 6, human infrared sensor 7 and alarm device 26 are fixed on the big-arch shelter body 31.

The utility model provides a pair of agricultural intelligent warmhouse booth monitored control system based on thing networking, produce infrared sensing signal and with infrared sensing signal transmission to main control unit when human infrared sensor senses the visitor, after main control unit received human infrared signal, control first camera and open and gather the face image, first camera acquires user's face image information, and send face image information to face recognizer, main control unit compares with the face image information of saving in the main control unit according to the face image information that face recognizer gathered, when main control unit detects that face image information that face recognizer gathered is unanimous with the face image information of saving in the main control unit, main control unit controls the action of shutter drive motor through the motor control unit, open the shutter; when the face image information that face recognition ware that main control unit detected gathered was inconsistent with the face information of prestoring, main control unit control alarm device sent alarm signal, produced the warning effect to the lawless persons who tries to get into warmhouse booth, only human infrared sensor senses the visitor moreover, and first camera is gathered and is just opened, is favorable to the electric power energy saving and prolongs first camera life. The solar cell panel is characterized in that an anti-ultraviolet layer is arranged in the amorphous silicon thin film, ultraviolet rays which are not beneficial to plant growth can be filtered out through the anti-ultraviolet layer, favorable light for plant growth is allowed to irradiate into the greenhouse, the area of the thin film battery can be enlarged for enabling the photoelectric conversion efficiency of the amorphous silicon thin film battery component to be higher, and meanwhile, the area is required to be enlarged and the characteristic of low economy is required to be met. In order to effectively utilize wind energy and solar energy, realize wind-solar complementation and improve the power generation efficiency, a solar panel and a wind power generation device are used as power supply devices, the solar panel and the wind power generation device are respectively connected with a wind-solar complementation controller, and the wind-solar complementation controller is connected with a storage battery, so that the energy is saved, and the energy conservation and the environmental protection are facilitated. The system collects the temperature and humidity value in the air in the greenhouse, the carbon dioxide concentration value in the greenhouse, the pH value of soil and the illumination value in the greenhouse through the air temperature sensor, the air humidity sensor, the carbon dioxide concentration sensor, the soil pH sensor and the illumination sensor which are dispersedly arranged in the greenhouse, then transmits the collected information to the main controller through the ZigBee wireless module, when the collected information has deviation with the pre-stored parameters of the main controller, the main controller sends an action command to the adjusting device to control the adjusting device to adjust the temperature, the carbon dioxide concentration, the soil pH value or the illumination, and automatically collects, transmits and feeds back the information through the temperature, the carbon dioxide concentration, the soil pH value and the illumination parameter, so that the automation degree of the environment adjustment in the greenhouse is high, and the labor intensity existing in the traditional manual measurement and adjustment is avoided, the efficiency is low, and the system has high automation degree, good control precision and convenient operation. The utility model provides an agricultural intelligent warmhouse booth monitored control system based on thing networking not only can reflect warmhouse booth's environmental change in real time to can carry out regulation and control according to the environmental change, be favorable to crops to grow, improve crops output, but also improved warmhouse booth's security, degree of automation and control accuracy, convenient operation, the long-range warmhouse booth condition of knowing of help peasant household has reduced intensity of labour.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The principle and the implementation of the present invention are explained herein by using specific examples, and the above description of the embodiments is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims (10)

1. An agricultural intelligent greenhouse monitoring system based on the Internet of things is characterized by comprising a greenhouse body, wherein a control box, a data acquisition device and an adjusting device are arranged in the greenhouse body, the control box comprises a main controller, a storage battery, a wind-solar complementary controller, a motor controller and a wireless transmission device, a greenhouse supporting framework is arranged above the greenhouse body, a solar cell panel is paved on the greenhouse supporting framework, an amorphous silicon thin film is attached to the solar cell panel, an anti-ultraviolet layer is arranged in the amorphous silicon thin film, a supporting rod is further arranged on the greenhouse supporting framework, the bottom of the supporting rod is fixedly connected with the greenhouse supporting framework, a wind power generation device is arranged at the top of the supporting rod, the solar cell panel and the wind power generation device are respectively connected with the wind-solar complementary controller, the wind-solar hybrid controller is connected with one end of the storage battery, the other end of the storage battery is connected with the main controller, the main controller is connected with a remote service terminal through the wireless transmission device, one side of the greenhouse body is provided with a rolling gate, a rotating shaft and a rolling gate driving motor, the rotating shaft is arranged at the top of the rolling gate, the rolling gate driving motor is fixedly installed on the greenhouse body, the rolling gate is in transmission connection with the rolling gate driving motor through the rotating shaft, the rolling gate driving motor is connected with the main controller through the motor controller, a face recognizer, a human body infrared sensor and an alarm device are installed right above the rolling gate, the face recognizer, the human body infrared sensor and the alarm device are fixed on the greenhouse body, and the face recognizer, The human body infrared sensor and the alarm device are both connected with the main controller, a first camera used for collecting facial information of people entering the greenhouse is arranged on the face recognizer, the starting end of the first camera is connected with the main controller, the output end of the first camera is connected with the face recognizer, the data collection device comprises a greenhouse environment collection unit, the greenhouse environment collection unit comprises a sensor module and a ZigBee wireless module, the sensor module is in wireless connection with the main controller through the ZigBee wireless module, and the main controller compares the voltage value collected by the sensor module with a preset value in the main controller and adjusts the adjusting device according to the comparison result.

2. The agricultural intelligent greenhouse monitoring system based on the Internet of things of claim 1, wherein the sensor module comprises an air temperature sensor, an air humidity sensor, a carbon dioxide concentration sensor, a soil PH sensor and an illumination sensor, and the air temperature sensor, the air humidity sensor, the carbon dioxide concentration sensor, the soil PH sensor and the illumination sensor are all connected with the input end of the main controller through the ZigBee wireless module.

3. The agricultural intelligent greenhouse monitoring system based on the internet of things as claimed in claim 1, wherein the adjusting device comprises a heating device and a cooling device which are matched with each other and used for temperature adjustment, a dehumidifying device and a drying device which are matched with each other and used for humidity adjustment, a carbon dioxide generator, a soil PH adjusting device and a lighting device, and the heating device, the cooling device, the dehumidifying device, the drying device, the carbon dioxide generator, the soil PH adjusting device and the lighting device are all connected with the output end of the main controller.

4. The internet of things-based agricultural intelligent greenhouse monitoring system of claim 3, wherein the heating device and the cooling device are arranged in the greenhouse body in a group, and the dehumidifying device and the drying device are arranged in the greenhouse body in a group.

5. The Internet of things-based agricultural intelligent greenhouse monitoring system as claimed in claim 3, wherein the lighting device comprises a PWM driving dimming circuit and a plurality of LED lighting lamps, the LED lighting lamps are arranged at the top position in the greenhouse body, and the LED lighting lamps are connected with the main controller through the PWM driving dimming circuit.

6. The internet of things-based agricultural intelligent greenhouse monitoring system according to claim 1, wherein the data acquisition device further comprises a video acquisition unit, the video acquisition unit comprises a second camera and an image processing module, the second camera is arranged at four corners in the greenhouse body, one end of the image processing module is connected with the second camera, and the other end of the image processing module is connected with the main controller.

7. The internet of things-based agricultural intelligent greenhouse monitoring system of claim 1, further comprising a control panel disposed outside the control box.

8. The agricultural intelligent greenhouse monitoring system based on the internet of things of claim 7, wherein the control panel comprises an LCD display screen, a control key is arranged above the LCD display screen, and the LCD display screen and the control key are both connected with the main controller.

9. The internet of things-based agricultural intelligent greenhouse monitoring system of claim 1, wherein the alarm device comprises a light emitting diode and a buzzer.

10. The internet of things-based agricultural intelligent greenhouse monitoring system according to claim 1, wherein the remote service terminal is a mobile phone, a computer or a tablet computer.

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