CN206930315U - Agricultural monitoring system - Google Patents

Abstract

The utility model discloses agricultural monitoring system, is related to agricultural technology field.Including：Soil humidity sensor, soil nitrogen phosphorus potassium sensor and voice detector；The first Zigbee terminal nodes that are connected with soil humidity sensor, the 2nd Zigbee terminal nodes being connected with soil nitrogen phosphorus potassium sensor, the 3rd Zigbee terminal nodes, Zigbee focal points, the intelligent gateway being connected with voice detector；Cloud server, singlechip controller, water pump, acoustical generator；First Zigbee terminal nodes, the 2nd Zigbee terminal nodes, the 3rd Zigbee terminal nodes are connected with Zigbee focal points；Zigbee focal points are connected by intelligent gateway with cloud server；Cloud server is connected with singlechip controller and communicated to connect with display terminal；Singlechip controller water pump connects with acoustical generator；The Zigbee terminal nodes of electric supply installation the first, the 2nd Zigbee terminal nodes, the 3rd Zigbee terminal nodes connect with Zigbee focal points；The agriculture control system realizes the automation to farmland management, saves time power, efficiency high.

Description

Agricultural monitoring system

Technical field

Agricultural technology field is the utility model is related to, more particularly, to agricultural monitoring system.

Background technology

Wisdom agricultural is one of focus of our times various countries technology of Internet of things theoretical research, many national in the world at present It is devoted to study this technology, and is promoting energetically, achieves considerable economic benefit and promote the at full speed of agricultural Development.Wisdom agricultural is a branch of Internet of Things industry, is the important component of the wisdom earth.Wisdom agricultural to be engaged in The vast farmerses friend of agricultural working is capable of the long-term cropping of science, improves yield, promotes modernization and the intelligence of agricultural The development of change.

At present in terms of agricultural management, particularly large-scale farm, because its is vast in territory, using manual management Mode, the thing between any farmland are required for administrative staff to go to scene to be checked and operated, and its shortcoming is to waste time and energy, efficiency It is very low.

Utility model content

The purpose of this utility model is to provide agricultural monitoring system, and the agriculture control system is realized to farmland management Automation, save time power, efficiency high.

To achieve the above object, the utility model provides following technical scheme：

According to one side of the present utility model, there is provided agricultural monitoring system, including：

Including sensing layer, transport layer, application layer, electric supply installation and display terminal；Wherein；

The sensing layer includes：Soil humidity sensor, soil nitrogen phosphorus potassium sensor and voice detector；The transmission Layer includes：The first Zigbee terminal nodes corresponding with the soil humidity sensor and the soil nitrogen phosphorus potassium sensor pair The 2nd Zigbee terminal nodes answered, the 3rd Zigbee terminal nodes corresponding with the voice detector, Zigbee focal points And intelligent gateway；The application layer includes：Cloud server, singlechip controller, water pump and acoustical generator；

The soil humidity sensor is connected with the first Zigbee terminal nodes；The soil nitrogen phosphorus potassium sensor with The 2nd Zigbee terminal nodes connection；The voice detector is connected with the 3rd Zigbee terminal nodes；Described One Zigbee terminal nodes, the 2nd Zigbee terminal nodes and the 3rd Zigbee terminal nodes with it is described Zigbee focal points connect；The Zigbee focal points are connected by the intelligent gateway with the cloud server；The cloud End server is connected with the singlechip controller and the cloud server communicates to connect with the display terminal；The list Piece machine controller is connected with the water pump and the acoustical generator respectively；

The electric supply installation respectively with the first Zigbee terminal nodes, the 2nd Zigbee terminal nodes, described 3rd Zigbee terminal nodes and Zigbee focal points connection.

Further, in addition to wireless camera and the 4th Zigbee terminal sections corresponding with the wireless camera Point；

The wireless camera is connected with the 4th Zigbee terminal nodes；The 4th Zigbee terminal nodes difference It is connected with the Zigbee focal points and electric supply installation connects.

Further, in addition to serial port data line；

The intelligent gateway is connected by the serial port data line with the cloud server.

Further, the display terminal includes touching display screen, processor and power supply；

The touching display screen is connected with the processor；The power supply respectively with the touching display screen and institute State processor connection.

Further, the cloud server is connected by GPRS network and display terminal communication.

Further, the intelligent gateway is connected by netting twine with the cloud server.

Further, the singlechip controller is STM32F103RBT6 single-chip microcomputers.

Further, the water pump is fountain water pump.

Further, the wireless camera is wireless network camera.

Further, the electric supply installation is multiple solar cells.

Compared with prior art, the beneficial effects of the utility model are：

According to agricultural monitoring system of the present utility model, including：Including sensing layer, transport layer, application layer, electric supply installation with And display terminal；Wherein；The sensing layer includes：Soil humidity sensor, soil nitrogen phosphorus potassium sensor and voice detector； The transport layer includes：The first Zigbee terminal nodes corresponding with the soil humidity sensor and the soil nitrogen phosphorus potassium 2nd Zigbee terminal nodes corresponding to sensor, the 3rd Zigbee terminal nodes corresponding with the voice detector, Zigbee focal points and intelligent gateway；The application layer includes：Cloud server, singlechip controller, water pump and sounding Device；The soil humidity sensor is connected with the first Zigbee terminal nodes；The soil nitrogen phosphorus potassium sensor with it is described 2nd Zigbee terminal nodes connect；The voice detector is connected with the 3rd Zigbee terminal nodes；Described first Zigbee terminal nodes, the 2nd Zigbee terminal nodes and the 3rd Zigbee terminal nodes with the Zigbee Focal point connects；The Zigbee focal points are connected by the intelligent gateway with the cloud server；The cloud service Device is connected with the singlechip controller and the cloud server communicates to connect with the display terminal；The single-chip microcomputer control Device processed is connected with the water pump and the acoustical generator respectively；The electric supply installation respectively with the first Zigbee terminal sections Point, the 2nd Zigbee terminal nodes, the 3rd Zigbee terminal nodes and Zigbee focal points connection；Agricultural When control system works, soil humidity sensor and humidity in soil nitrogen phosphorus potassium sensor collection soil and N P and K Concentration, and Zigbee focal points are forwarded to by the first Zigbee terminal nodes and the 2nd Zigbee terminal nodes, then by Intelligent gateway is sent to cloud server, and cloud server is by analyzing the data being collected into, if humidity is higher than wet Threshold value is spent, then cloud server is by controlling pumping for water pump to irrigate agricultural land soil, if the concentration of N P and K is higher than The concentration threshold of N P and K, then by manually carrying out application npk fertilizer to agricultural land soil；Voice detector is capable of detecting when The sound of certain frequency, and Zigbee focal points are forwarded to by the first Zigbee terminal nodes, then be sent to by intelligent gateway Cloud server, cloud server is by analyzing the data being collected into, if with being stored in advance on cloud server Tweedle matching if, then cloud server is by controlling acoustical generator to play to expel the sound of birds；Due to cloud service Device communicates to connect with display terminal, so the said process in farmland can be seen by display terminal；Above-mentioned Agricultural Monitoring System avoids administrative staff and goes to scene to be checked and part operation, can be realized by farmland control system to farmland management Automation, save time power, efficiency high.

Brief description of the drawings

, below will be right in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art The required accompanying drawing used is briefly described in embodiment or description of the prior art, it should be apparent that, describe below In accompanying drawing be some embodiments of the present utility model, for those of ordinary skill in the art, do not paying creativeness On the premise of work, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the flow chart for the agricultural monitoring system system that the utility model embodiment provides.

Icon：100- soil humidity sensors；The Zigbee terminal nodes of 101- the first；102- water pumps；200- soil nitrogen phosphorus Potassium sensor；The Zigbee terminal nodes of 201- the 2nd；300- voice detectors；The Zigbee terminal nodes of 301- the 3rd；302- is sent out Sound device；400- wireless cameras；The Zigbee terminal nodes of 401- the 4th；500-Zigbee focal points；600- cloud servers； 601- intelligent gateways；700- singlechip controllers；800- display terminals；900- solar cells.

Embodiment

The technical solution of the utility model is clearly and completely described below in conjunction with accompanying drawing, it is clear that described Embodiment is the utility model part of the embodiment, rather than whole embodiments.Based on the embodiment in the utility model, sheet The every other embodiment that field those of ordinary skill is obtained under the premise of creative work is not made, belongs to this practicality Novel protected scope.

, it is necessary to explanation in description of the present utility model, term " " center ", " on ", " under ", it is "left", "right", " perpendicular Directly ", the orientation of the instruction such as " level ", " interior ", " outer " or position relationship are based on orientation shown in the drawings or position relationship, are only Described for the ease of description the utility model and simplifying, rather than instruction or imply signified device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.In addition, term " the One ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that instruction or hint relative importance.

, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly Connection；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected by intermediary, It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition Concrete meaning of the language in the utility model.

According to one side of the present utility model, as shown in Figure 1, there is provided agricultural monitoring system, including sensing layer, transmission Layer, application layer, electric supply installation and display terminal 800；Wherein；

Sensing layer includes：Soil humidity sensor 100, soil nitrogen phosphorus potassium sensor 200 and voice detector 300；Pass Defeated layer includes：The first Zigbee terminal nodes 101 corresponding with soil humidity sensor 100 and soil nitrogen phosphorus potassium sensor 200 Corresponding 2nd Zigbee terminal nodes 201, the 3rd Zigbee terminal nodes 301 corresponding with voice detector 300, Zigbee Focal point 500 and intelligent gateway 601；Application layer includes：Cloud server 600, singlechip controller 700, water pump 102 and Acoustical generator 302；

Soil humidity sensor 100 is connected with the first Zigbee terminal nodes 101；Soil nitrogen phosphorus potassium sensor 200 and Two Zigbee terminal nodes 201 connect；Voice detector 300 is connected with the 3rd Zigbee terminal nodes 301；First Zigbee is whole End node 101, the 2nd Zigbee terminal nodes 201 and the 3rd Zigbee terminal nodes 301 connect with Zigbee focal points 500 Connect；Zigbee focal points 500 are connected by intelligent gateway 601 with cloud server 600；Cloud server 600 and single-chip microcomputer control Device 700 processed connects and cloud server 600 communicates to connect with display terminal 800；Singlechip controller 700 respectively with water pump 102 and acoustical generator 302 connect；

Electric supply installation respectively with the first Zigbee terminal nodes 101, the 2nd Zigbee terminal nodes 201, the 3rd Zigbee Terminal node 301 and Zigbee focal points 500 connect.

According to agricultural monitoring system system of the present utility model, when agriculture control system works, soil humidity sensor 100 And soil nitrogen phosphorus potassium sensor 200 collects the concentration of the humidity and N P and K in soil, and it is whole by the first Zigbee The Zigbee terminal nodes 201 of end node 101 and the 2nd are forwarded to Zigbee focal points 500, then are sent to by intelligent gateway 601 Cloud server 600, cloud server 600 is by analyzing the data being collected into, if humidity is higher than humidity threshold, Cloud server 600 is by controlling water pump 102 to draw water to irrigate agricultural land soil, if the concentration of N P and K is higher than nitrogen phosphorus The concentration threshold of potassium, then by manually carrying out application npk fertilizer to agricultural land soil；Voice detector 300 is capable of detecting when one Determine the sound of frequency, and Zigbee focal points 500 are forwarded to by the first Zigbee terminal nodes 101, then by intelligent gateway 601 Cloud server 600 is sent to, cloud server 600 is by analyzing the data being collected into, if with being stored in advance in If tweedle matching on cloud server 600, then cloud server 600 is by controlling acoustical generator 302 to play to expel bird The sound of class；Because cloud server 600 and display terminal 800 communicate to connect, so can be seen by display terminal 800 Said process in farmland；Above-mentioned agricultural monitoring system avoids administrative staff and goes to scene to be checked and part operation, can Automation to farmland management is realized by farmland control system, saves time power, efficiency high；

In the farmland monitoring system, by sounding module play expulsion birds sound, can effectively sowing and Loss is reduced when crop maturity, because if if the seed sowed is eaten up by birds, it is meant that the reduction of yield； Also there is quite a few to be consumed when good harvest；

According to a kind of embodiment of the utility model agricultural monitoring system system, in addition to wireless camera 400 and The 4th Zigbee terminal nodes 401 corresponding with wireless camera 400；

Wireless camera 400 is connected with the 4th Zigbee terminal nodes 401；4th Zigbee terminal nodes 401 respectively with Zigbee focal points 500 connect and electric supply installation connection.

According to agricultural monitoring system of the present utility model, wireless camera 400 collects the situation in farmland, and passes through the 4th Zigbee terminal nodes 401 are forwarded to Zigbee focal points 500, then are sent to cloud server 600, cloud by intelligent gateway 601 Server 600 is held clearly to see the various of field by display terminal 800 by analyzing the data being collected into Situation, wireless camera 400 can be rotated with multiple angles, comprehensive understanding crop situation, such as：There is livestock to swarm into, have People, which steals either, has insect to need to spray insecticide；

The installation process of the farmland monitoring system is the following is, first, by the soil humidity sensor 100 and first of the system Zigbee terminal nodes 101 are attached, and soil nitrogen phosphorus potassium sensor 200 is attached with the 2nd Zigbee terminal nodes 201, Voice detector 300 is attached with the 3rd Zigbee terminal nodes 301, the Zigbee terminal sections of wireless camera 400 and the 4th Point 401, by the first Zigbee terminal nodes 101, the 2nd Zigbee terminal nodes 201, the 3rd Zigbee terminal nodes 301 with Zigbee focal points 500 are connected, and secondly, intelligent gateway 601 are connected with Zigbee focal points 500, intelligent gateway 601 is again Cloud server 600 is connected to, finally, cloud server 600 is connected with singlechip controller 700, and in monolithic The surrounding of machine controller 700 connects acoustical generator 302 and water pump 102, you can completes installation, opens cloud server 600 and run phase The program answered, and powered with electric supply installation for corresponding device, you can start the farmland monitoring system.

According to a kind of embodiment of the utility model agricultural monitoring system system, in addition to serial port data line；

Intelligent gateway 601 is connected by serial port data line with cloud server 600.

According to a kind of embodiment of the utility model agricultural monitoring system system, display terminal 800 includes touch aobvious Display screen, processor and power supply；

Touching display screen is connected with processor；Power supply is connected with touching display screen and processor respectively.

According to a kind of embodiment of the utility model agricultural monitoring system system, cloud server 600 passes through GPRS nets Network connects with the communication of display terminal 800.

According to a kind of embodiment of the utility model agricultural monitoring system system, intelligent gateway 601 passes through netting twine and cloud End server 600 connects.

According to a kind of embodiment of the utility model agricultural monitoring system system, singlechip controller 700 is STM32F103RBT6 single-chip microcomputers.

According to a kind of embodiment of the utility model agricultural monitoring system system, water pump 102 is fountain water pump.

According to a kind of embodiment of the utility model agricultural monitoring system system, wireless camera 400 is wireless network Camera.

According to agricultural monitoring system system of the present utility model, the requirement of the farmland control system to wireless camera 400 It is not very high, to reduce cost, using common IP Camera；Intelligent gateway 601 using common ARM plates simultaneously It is programmed, data are forwarded and handled, the processor of different performance is selected according to the size of data volume；Zigbee Focal point 500, the first Zigbee terminal nodes 101, the 2nd Zigbee terminal nodes 201, the 3rd Zigbee terminal nodes 301 with And the 4th Zigbee terminal nodes 401 using common terminal module, it has to be possible to it is programmed, is conveniently configured to Focal point either terminal node；Solar cell 900 must possess the function of storage electric energy, so as in the insufficient the moon of sunlight It can also power, and voltage, electric current and the first Zigbee terminal nodes 101, the 2nd Zigbee terminal nodes exported 201st, the 3rd Zigbee terminal nodes 301, the 4th Zigbee terminal nodes 401, Zigbee focal points 500, wireless camera 400 It can match.

In summary, it is more according to the optional factor of agricultural monitoring system system of the present utility model.According to the utility model Claim can be combined into multiple embodiments, therefore the technical scheme gone out according to claim combinations of the present utility model Within the scope of protection of the utility model.Below in conjunction with specific embodiments to the utility model agricultural monitoring system system System is further described through.

Embodiment

According to agricultural monitoring system system of the present utility model, including sensing layer, transport layer, application layer, electric supply installation with And display terminal；Wherein；Sensing layer includes：Soil humidity sensor 100, soil nitrogen phosphorus potassium sensor 200, voice detector 300；Transport layer includes：The first Zigbee terminal nodes 101 corresponding with soil humidity sensor 100 and soil nitrogen phosphorus potassium pass 2nd Zigbee terminal nodes 201, the 3rd Zigbee terminal nodes corresponding with voice detector 300 corresponding to sensor 200 301st, Zigbee focal points 500 and intelligent gateway 601；Application layer includes：Cloud server 600, singlechip controller 700, Water pump 102 and acoustical generator 302；Also include wireless camera 400 and fourth Zigbee corresponding with wireless camera 400 is whole End node 401；Soil humidity sensor 100 is connected with the first Zigbee terminal nodes 101；Soil nitrogen phosphorus potassium sensor 200 with 2nd Zigbee terminal nodes 201 connect；Voice detector 300 is connected with the 3rd Zigbee terminal nodes 301；First Zigbee Terminal node 101, the 2nd Zigbee terminal nodes 201 and the 3rd Zigbee terminal nodes 301 with Zigbee focal points 500 Connection；Zigbee focal points 500 are connected by intelligent gateway 601 with cloud server 600；Cloud server 600 and single-chip microcomputer Controller 700 connects and cloud server 600 communicates to connect with display terminal 800；Singlechip controller 700 respectively with water pump 102 and acoustical generator 302 connect；Multiple solar cells 900 respectively with the first Zigbee terminal nodes 101, the 2nd Zigbee Terminal node 102, the 3rd Zigbee terminal nodes 103 and Zigbee focal points 500 connect；Wireless camera 400 and the 4th Zigbee terminal nodes 401 connect；4th Zigbee terminal nodes 401 are connected and powered with Zigbee focal points 500 respectively Device connects；

During agriculture control system work, soil humidity sensor 100 and soil nitrogen phosphorus potassium sensor 200 are collected in soil Humidity and N P and K concentration, wireless camera 400 collects the situation in farmland, and passes through the first Zigbee terminal nodes 101st, the 2nd Zigbee terminal nodes 201 and the 4th Zigbee terminal nodes 401 are forwarded to Zigbee focal points 500, then by Intelligent gateway 601 is sent to cloud server 600, and cloud server 600 is by analyzing the data being collected into, if wet Degree is higher than humidity threshold, then cloud server 600 is by controlling water pump 102 to draw water to irrigate agricultural land soil, if nitrogen The concentration of phosphorus potassium is higher than the concentration threshold of N P and K, then by manually carrying out application npk fertilizer to agricultural land soil；Sound is examined Survey device 300 and be capable of detecting when the sound of certain frequency, and Zigbee focal points are forwarded to by the first Zigbee terminal nodes 101 500, then cloud server 600 is sent to by intelligent gateway 601, cloud server 600 is by dividing the data being collected into Analysis, if the tweedle with being stored in advance on cloud server 600 matches, then cloud server 600 is sent out by controlling Sound device 302 is played to expel the sound of birds；Because cloud server 600 and display terminal 800 communicate to connect, so can lead to Cross display terminal 800 and see said process in farmland.

Finally it should be noted that：Various embodiments above is only to illustrate the technical solution of the utility model, rather than it is limited System；Although utility model is described in detail with reference to foregoing embodiments, one of ordinary skill in the art should manage Solution：It can still modify to the technical scheme described in foregoing embodiments, either to which part or whole skills Art feature carries out equivalent substitution；And these modifications or replacement, the essence of appropriate technical solution is departed from the utility model The scope of each embodiment technical scheme.

Claims (10)

1. agricultural monitoring system, it is characterised in that including sensing layer, transport layer, application layer, electric supply installation and display terminal； Wherein；

The sensing layer includes：Soil humidity sensor, soil nitrogen phosphorus potassium sensor and voice detector；The transport layer bag Include：It is the first Zigbee terminal nodes corresponding with the soil humidity sensor, corresponding with the soil nitrogen phosphorus potassium sensor 2nd Zigbee terminal nodes, the 3rd Zigbee terminal nodes corresponding with the voice detector, Zigbee focal points and Intelligent gateway；The application layer includes：Cloud server, singlechip controller, water pump and acoustical generator；

The soil humidity sensor is connected with the first Zigbee terminal nodes；The soil nitrogen phosphorus potassium sensor with it is described 2nd Zigbee terminal nodes connect；The voice detector is connected with the 3rd Zigbee terminal nodes；Described first Zigbee terminal nodes, the 2nd Zigbee terminal nodes and the 3rd Zigbee terminal nodes with the Zigbee Focal point connects；The Zigbee focal points are connected by the intelligent gateway with the cloud server；The cloud service Device is connected with the singlechip controller and the cloud server communicates to connect with the display terminal；The single-chip microcomputer control Device processed is connected with the water pump and the acoustical generator respectively；

The electric supply installation respectively with the first Zigbee terminal nodes, the 2nd Zigbee terminal nodes, the described 3rd Zigbee terminal nodes and Zigbee focal points connection.

2. agricultural monitoring system according to claim 1, it is characterised in that also including wireless camera and with the nothing 4th Zigbee terminal nodes corresponding to line camera；

The wireless camera is connected with the 4th Zigbee terminal nodes；The 4th Zigbee terminal nodes respectively with institute State the connection of Zigbee focal points and electric supply installation connection.

3. agricultural monitoring system according to claim 1, it is characterised in that also including serial port data line；

The intelligent gateway is connected by the serial port data line with the cloud server.

4. agricultural monitoring system according to claim 1, it is characterised in that the display terminal includes touch display Screen, processor and power supply；

The touching display screen is connected with the processor；The power supply respectively with the touching display screen and the place Manage device connection.

5. agricultural monitoring system according to claim 1, it is characterised in that the cloud server by GPRS network with The display terminal communication connection.

6. agricultural monitoring system according to claim 1, it is characterised in that the intelligent gateway passes through netting twine and the cloud Hold server connection.

7. agricultural monitoring system according to claim 1, it is characterised in that the singlechip controller is STM32F103RBT6 single-chip microcomputers.

8. agricultural monitoring system according to claim 1, it is characterised in that the water pump is fountain water pump.

9. agricultural monitoring system according to claim 2, it is characterised in that the wireless camera images for wireless network Head.

10. according to the agricultural monitoring system described in claim any one of 1-9, it is characterised in that the electric supply installation is multiple Solar cell.