CN208075940U - A kind of Digital Agriculture monitoring device - Google Patents
A kind of Digital Agriculture monitoring device Download PDFInfo
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- CN208075940U CN208075940U CN201820662227.6U CN201820662227U CN208075940U CN 208075940 U CN208075940 U CN 208075940U CN 201820662227 U CN201820662227 U CN 201820662227U CN 208075940 U CN208075940 U CN 208075940U
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- supporting rod
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Abstract
The utility model discloses a kind of Digital Agriculture monitoring devices, including device case, pedestal, supporting rod, soil, the soil is internally provided with the pedestal, the chassis interior is provided with underground humidity sensor, underground humidity sensor side is provided with subsurface temperature sensor, the pedestal upper end is provided with the supporting rod, described device shell is provided on the supporting rod, described device shell side is provided with camera, described device housing rear end is provided with LED screen, it is provided with transparent watertight plate on the downside of the LED screen, the transparent watertight intralamellar part is provided with control button, described device enclosure interior is provided with controller, it is provided with processor on the downside of the controller, it is provided with wireless communication device on the downside of the processor.Advantageous effect is:The utility model can utilize timer and light sensor, adjust the angle of solar energy tabula rasa in real time, accomplish the maximal efficiency of solar power generation.
Description
Technical field
The utility model is related to agriculture test fields, more particularly to a kind of Digital Agriculture monitoring device.
Background technology
Currently, the most of tradition that still continues of the mode of agriculture in China is taking human as main mode, low production efficiency, letter
Breathization degree is low, and with being constantly progressive for science and technology, mode of agriculture is drilled towards hommization, intelligentized direction
Become, traditional agriculture detection monitors inconvenient and efficient simply by being manually detected, and needs a large amount of people
Power is worked, and existing intelligent monitoring device, is placed on field and is needed individually to power, the stand-by time of accumulator is not also grown.
Utility model content
The purpose of this utility model is that solve the above-mentioned problems and provides a kind of Digital Agriculture monitoring device.
The utility model is achieved through the following technical solutions above-mentioned purpose:
A kind of Digital Agriculture monitoring device, including device case, pedestal, supporting rod, soil are set inside the soil
It is equipped with the pedestal, the chassis interior is provided with underground humidity sensor, and underground humidity sensor side is provided with ground
Lower temperature sensor, the pedestal upper end are provided with the supporting rod, and described device shell is provided on the supporting rod, described
Device case side is provided with camera, and described device housing rear end is provided with LED screen, is provided on the downside of the LED screen transparent
Splash guard, the transparent watertight intralamellar part are provided with control button, and described device enclosure interior is provided with controller, the control
It is provided with processor on the downside of device, wireless communication device is provided on the downside of the processor, it is fixed to be provided on the downside of the wireless communication device
When device, the timer side is provided with accumulator, and the accumulator upper end is provided with the memory, the post upper
It is provided with rotary electric machine, the rotary electric machine upper end is provided with bending motor, and bending motor upper end is provided with solar energy branch
Frame, the solar bracket upper end are provided with solar energy tabula rasa, and solar energy tabula rasa side is provided with light sensor.
In above structure, the wireless communication device model ZAWM100-B002, the processor model is MT6516, institute
Controller model SPC-STW-26A1 is stated, the subsurface temperature sensor model number is PT100, the underground humidity sensor type
Number be HM1520, supporting rod installation on the base, the underground humidity sensor on the pedestal and described
Lower temperature sensor detects the environment of the soil, and Real-time Feedback gives the processor, the controller to pass through the channel radio
News device is sent to the user, and the controller sends a signal to the LED screen again, and real-time display goes out data, the light
The intensity that sensor detection light is shone, feeds back to the processor, and the processor will be sent to the controller after data processing,
The controller controls the bending motor and the rotary electric machine, adjusts the angle of the solar bracket.
In order to further increase the practicability of Digital Agriculture detection device, the light sensor is connected to by conducting wire
The processor, the underground humidity sensor are connected to the processor by conducting wire, and the subsurface temperature sensor passes through
Conducting wire is connected to the processor, and the camera is connected to the controller by conducting wire, and the LED screen is connected by conducting wire
In the controller, the control button is connected to the controller by conducting wire, and the bending motor is connected to by conducting wire
The controller, the rotary electric machine are connected to the controller by conducting wire, and the memory is connected to described by conducting wire
Controller, the accumulator are connected to the controller by conducting wire, and the processor is connected to the controller by conducting wire,
The wireless communication device is connected to the controller by conducting wire, and the timer is connected to the controller, institute by conducting wire
It states solar energy tabula rasa and the accumulator is connected to by conducting wire.
In order to further increase the practicability of Digital Agriculture detection device, the solar energy tabula rasa passes through gluing and described
Solar bracket connects, and the light sensor is embedded in the solar bracket, and the solar bracket is bolted
In the bending motor, the bending motor is bolted to the rotary electric machine.
In order to further increase the practicability of Digital Agriculture detection device, the supporting rod is bolted to described
Pedestal.
In order to further increase the practicability of Digital Agriculture detection device, the subsurface temperature sensor is connected by screw
It is connected to the pedestal, the underground humidity sensor is connected by screw in the pedestal.
In order to further increase the practicability of Digital Agriculture detection device, the supporting rod is bolted to described
Device case, the camera are connected by screw in described device shell, and the LED screen is connected by screw in described device
Shell, for the transparent watertight plate by hinge connection in described device shell, the control button is embedded in described device shell.
In order to further increase the practicability of Digital Agriculture detection device, the controller is connected by screw in described
Device case, the processor are connected by screw in described device shell, and the wireless communication device is connected by screw in institute
State device case.
Advantageous effect is:The utility model can utilize timer and light sensor, adjust solar energy tabula rasa in real time
Angle, accomplish the maximal efficiency of solar power generation.
Description of the drawings
Fig. 1 is a kind of structural schematic diagram of Digital Agriculture monitoring device described in the utility model;
Fig. 2 is a kind of solar bracket vertical view of Digital Agriculture monitoring device described in the utility model;
Fig. 3 is a kind of device case rearview of Digital Agriculture monitoring device described in the utility model;
Fig. 4 is a kind of circuit structure flow diagram of Digital Agriculture monitoring device described in the utility model.
The reference numerals are as follows:
1, soil;2, device case;3, controller;4, processor;5, wireless communication device;6, timer;7, camera;8,
Memory;9, accumulator;10, supporting rod;11, rotary electric machine;12, bending motor;13, solar bracket;14, solar energy
Plate;15, light sensor;16, LED screen;17, transparent watertight plate;18, control button;19, pedestal;20, underground humidity sensor
Device;21, subsurface temperature sensor.
Specific implementation mode
The utility model is described in further detail below in conjunction with the accompanying drawings:
As Figure 1-Figure 4, a kind of Digital Agriculture monitoring device, including device case 2, pedestal 19, supporting rod 10,
Soil 1, soil 1 are internally provided with pedestal 19, and soil 1 plays plantation, and pedestal 19 plays a supportive role, and pedestal 19 is internally provided with
Underground humidity sensor 20, underground humidity sensor 20 play detection underground wetness action, the setting of 20 side of underground humidity sensor
There are subsurface temperature sensor 21, subsurface temperature sensor 21 to play detection subsurface temperature, 19 upper end of pedestal is provided with supporting rod
10, supporting rod 10 plays a supportive role, and device case 2 is provided on supporting rod 10, and device case 2 plays carrying, device case 2
Side is provided with camera 7, and camera 7 plays monitoring, and 2 rear end of device case is provided with LED screen 16, and LED screen 16 plays display
Information function, the downside of LED screen 16 are provided with transparent watertight plate 17, and transparent watertight plate 17 plays waterproof action, in transparent watertight plate 17
Portion is provided with control button 18, and control button 18 plays control action, and device case 2 is internally provided with controller 3, and controller 3 rises
Control action, 3 downside of controller are provided with processor 4, and processor 4 plays processing, and 4 downside of processor is provided with wireless telecommunications
Device 5, wireless communication device 5 play communication, and 5 downside of wireless communication device is provided with timer 6, and timer 6 plays time action, timing
6 side of device is provided with accumulator 9, and accumulator 9 plays power supply function, and 9 upper end of accumulator is provided with memory 8, and memory 8 plays storage
Effect, 10 upper end of supporting rod are provided with rotary electric machine 11, and rotary electric machine 11 plays steering-effecting, and 11 upper end of rotary electric machine is provided with folding
Curved motor 12, bending motor 12 play corrective action, and 12 upper end of bending motor is provided with solar bracket 13, and solar bracket 13 rises
Carrying acts on, and 13 upper end of solar bracket is provided with solar energy tabula rasa 14, and solar energy tabula rasa 14 rises electro ultrafiltration, solar energy tabula rasa
14 sides are provided with light sensor 15, and light sensor 15, which serves, experiences light intensity.
In above structure, 5 model ZAWM100-B002 of wireless communication device, 4 model MT6516 of processor, controller 3
Model SPC-STW-26A1,21 model PT100 of subsurface temperature sensor, 20 model HM1520 of underground humidity sensor,
Supporting rod 10 is mounted on pedestal 19, and the underground humidity sensor 20 and subsurface temperature sensor 21 on pedestal 19 detect soil 1
Environment, Real-time Feedback is sent to user to processor 4, controller 3 by wireless communication device 5, and controller 3 again sends signal
To LED screen 16, real-time display goes out data, and the intensity that 15 detection light of light sensor is shone feeds back to processor 4, processor 4 will count
According to controller 3 is sent to after processing, controller 3 controls bending motor 12 and rotary electric machine 11, adjusts the angle of solar bracket 13
Degree.
In order to further increase the practicability of Digital Agriculture detection device, light sensor 15 is connected to place by conducting wire
Device 4 is managed, underground humidity sensor 20 is connected to processor 4 by conducting wire, and subsurface temperature sensor 21 is connected to place by conducting wire
Device 4 is managed, camera 7 is connected to controller 3 by conducting wire, and LED screen 16 is connected to controller 3 by conducting wire, and control button 18 is logical
It crosses conducting wire and is connected to controller 3, bending motor 12 is connected to controller 3 by conducting wire, and rotary electric machine 11 is connected to by conducting wire
Controller 3, memory 8 are connected to controller 3 by conducting wire, and accumulator 9 is connected to controller 3 by conducting wire, and processor 4 passes through
Conducting wire is connected to controller 3, and wireless communication device 5 is connected to controller 3 by conducting wire, and timer 6 is connected to control by conducting wire
Device 3, solar energy tabula rasa 14 are connected to accumulator 9 by conducting wire, and solar energy tabula rasa 14 is connected by gluing and solar bracket 13,
Light sensor 15 is embedded in solar bracket 13, and solar bracket 13 is bolted to bending motor 12, bending motor
12 are bolted to rotary electric machine 11, and supporting rod 10 is bolted to pedestal 19, and subsurface temperature sensor 21 passes through
Screw is connected to pedestal 19, and underground humidity sensor 20 is connected by screw in pedestal 19, and supporting rod 10 is bolted to
Device case 2, camera 7 are connected by screw in device case 2, and LED screen 16 is connected by screw in device case 2, transparent
For splash guard 17 by hinge connection in device case 2, control button 18 is embedded in device case 2, and controller 3 is connected by screw
In device case 2, processor 4 is connected by screw in device case 2, and wireless communication device 5 is connected by screw in device case
2。
The basic principles and main features and advantage of the utility model have been shown and described above.The technical staff of the industry
It should be appreciated that the present utility model is not limited to the above embodiments, the above embodiments and description only describe this
The principle of utility model, on the premise of not departing from the spirit and scope of the utility model, the utility model also has various change
And improvement, these various changes and improvements fall within the scope of the claimed invention.
Claims (7)
1. a kind of Digital Agriculture monitoring device, it is characterised in that:Including device case (2), pedestal (19), supporting rod
(10), soil (1), the soil (1) are internally provided with the pedestal (19), and the pedestal (19) is internally provided with underground humidity
Sensor (20), underground humidity sensor (20) side are provided with subsurface temperature sensor (21), on the pedestal (19)
End is provided with the supporting rod (10), and described device shell (2), described device shell (2) are provided on the supporting rod (10)
Side is provided with camera (7), and described device shell (2) rear end is provided with LED screen (16), is arranged on the downside of the LED screen (16)
There are transparent watertight plate (17), the transparent watertight plate (17) to be internally provided with control button (18), described device shell (2) is internal
It is provided with controller (3), processor (4) is provided on the downside of the controller (3), is provided on the downside of the processor (4) wireless
Communicator (5), wireless communication device (5) downside are provided with timer (6), and timer (6) side is provided with accumulator
(9), accumulator (9) upper end is provided with memory (8), and supporting rod (10) upper end is provided with rotary electric machine (11), institute
It states rotary electric machine (11) upper end and is provided with bending motor (12), bending motor (12) upper end is provided with solar bracket
(13), solar bracket (13) upper end is provided with solar energy tabula rasa (14), and solar energy tabula rasa (14) side is provided with
Light sensor (15).
2. a kind of Digital Agriculture monitoring device according to claim 1, it is characterised in that:The light sensor
(15) processor (4) is connected to by conducting wire, the underground humidity sensor (20) is connected to the processing by conducting wire
Device (4), the subsurface temperature sensor (21) are connected to the processor (4) by conducting wire, and the camera (7) passes through conducting wire
It is connected to the controller (3), the LED screen (16) is connected to the controller (3), the control button (18) by conducting wire
It is connected to the controller (3) by conducting wire, the bending motor (12) is connected to the controller (3) by conducting wire, described
Rotary electric machine (11) is connected to the controller (3) by conducting wire, and the memory (8) is connected to the controller by conducting wire
(3), the accumulator (9) is connected to the controller (3) by conducting wire, and the processor (4) is connected to described by conducting wire
Controller (3), the wireless communication device (5) are connected to the controller (3) by conducting wire, and the timer (6) passes through conducting wire
It is connected to the controller (3), the solar energy tabula rasa (14) is connected to the accumulator (9) by conducting wire.
3. a kind of Digital Agriculture monitoring device according to claim 1, it is characterised in that:The solar energy tabula rasa
(14) it is connected by gluing and the solar bracket (13), the light sensor (15) is embedded in the solar bracket
(13), the solar bracket (13) is bolted to the bending motor (12), and the bending motor (12) passes through spiral shell
It tethers and is connected to the rotary electric machine (11).
4. a kind of Digital Agriculture monitoring device according to claim 1, it is characterised in that:The supporting rod (10) is logical
It crosses and is bolted in the pedestal (19).
5. a kind of Digital Agriculture monitoring device according to claim 1, it is characterised in that:The subsurface temperature sensing
Device (21) is connected by screw in the pedestal (19), and the underground humidity sensor (20) is connected by screw in the pedestal
(19)。
6. a kind of Digital Agriculture monitoring device according to claim 1, it is characterised in that:The supporting rod (10) is logical
It crosses and is bolted in described device shell (2), the camera (7) is connected by screw in described device shell (2), described
LED screen (16) is connected by screw in described device shell (2), and the transparent watertight plate (17) is by hinge connection in the dress
Shell (2) is set, the control button (18) is embedded in described device shell (2).
7. a kind of Digital Agriculture monitoring device according to claim 1, it is characterised in that:The controller (3) is logical
It crosses screw and is connected to described device shell (2), the processor (4) is connected by screw in described device shell (2), the nothing
Line communicator (5) is connected by screw in described device shell (2).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820662227.6U CN208075940U (en) | 2018-05-06 | 2018-05-06 | A kind of Digital Agriculture monitoring device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820662227.6U CN208075940U (en) | 2018-05-06 | 2018-05-06 | A kind of Digital Agriculture monitoring device |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208075940U true CN208075940U (en) | 2018-11-09 |
Family
ID=64045489
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201820662227.6U Active CN208075940U (en) | 2018-05-06 | 2018-05-06 | A kind of Digital Agriculture monitoring device |
Country Status (1)
Country | Link |
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CN (1) | CN208075940U (en) |
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2018
- 2018-05-06 CN CN201820662227.6U patent/CN208075940U/en active Active
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