CN204270134U - A kind of greenhouse system based on local Internet of Things temperature control - Google Patents
A kind of greenhouse system based on local Internet of Things temperature control Download PDFInfo
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- CN204270134U CN204270134U CN201420828233.6U CN201420828233U CN204270134U CN 204270134 U CN204270134 U CN 204270134U CN 201420828233 U CN201420828233 U CN 201420828233U CN 204270134 U CN204270134 U CN 204270134U
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- chip computer
- computer module
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- booth
- temperature
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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Abstract
The utility model discloses a kind of greenhouse system based on local Internet of Things temperature control, comprise multiple booth subsystem, each subsystem comprises at least one booth and LAN server; The LAN server of each subsystem sets up the WLAN covering corresponding subsystem and adjacent subsystems; Each booth metope is provided with heating arrangement, heat abstractor and controller; Controller comprises serial ports and turns WIFI module, temperature sensor module and one-chip computer module, and serial ports turns WIFI module and communicates with described WLAN.Described serial ports is turned WIFI module and is connected with described one-chip computer module by the bidirectional interface of described one-chip computer module; Fixed terminal and mobile terminal comprise wireless network card respectively and WLAN carries out radio communication.
Description
Technical field
The utility model relates to agricultural production, is specifically related to a kind of greenhouse system based on local Internet of Things temperature control.
Background technology
At present, booth is supported to plant and is widely used in agricultural production.The method of China's most area booth temperature control is the method insulation adopting lid grass, adopts the method heat radiation of windowing or opening film.Along with the development of industrial control technology in recent years and universal, booth temperature control is the corresponding automatic temp controller having occurred adopting the control chip such as PLC or single-chip microcomputer to do also, or PID controls.But, existing booth temperature control is only the temperature regulating device for certain crop of greenhouse gardening, when same booth plants different crops at different times, or when same booth group comprises the booth of various plants plantation, existing temperature regulating device and temperature control method carry out accurate temperature control by being difficult to.
Utility model content
The technical problems to be solved in the utility model is to provide a kind of greenhouse system based on local Internet of Things temperature control, controls, improve the adaptability of booth and temperature controlled degree of accuracy with the large-scale greenhouse temperature adapting to comprise multiple planting plants.
For solving the problems of the technologies described above, the utility model adopts following technical scheme:
The utility model provides a kind of greenhouse system based on Internet of Things temperature control, it is characterized in that, described greenhouse system comprises multiple booth subsystem, and each subsystem of described multiple booth subsystem comprises at least one booth and LAN server; The LAN server of each subsystem described sets up the WLAN covering corresponding subsystem and adjacent subsystems; Each booth metope described is provided with heating arrangement, heat abstractor and controller; Described controller comprises serial ports and turns WIFI module, temperature sensor module and one-chip computer module, and described serial ports turns WIFI module and communicates with described WLAN; First output terminal of described one-chip computer module is connected with the electric input interface of described heating arrangement by the first relay; Second output terminal of described one-chip computer module is connected with the electric input interface of described heat abstractor by the second relay; Described temperature sensor module is connected with described one-chip computer module by the input interface of described one-chip computer module; Described serial ports is turned WIFI module and is connected with described one-chip computer module by the bidirectional interface of described one-chip computer module; Described greenhouse system also comprises fixed terminal and mobile terminal; Described fixed terminal and described mobile terminal comprise wireless network card respectively, and described wireless network card and described WLAN carry out radio communication.
In one embodiment, described temperature sensor module output temperature induced signal, described one-chip computer module regulates the control signal of described first output terminal and described second output terminal, to control described first relay and described second relay respectively according to described temperature sensor signal.
In one embodiment, described one-chip computer module turns WIFI module by described serial ports and sends described temperature sensor signal to described WLAN; The wireless network card of described fixed terminal and the wireless network card of described mobile terminal receive described temperature sensor signal respectively; Described fixed terminal and described mobile terminal comprise display screen respectively, for showing the temperature of each booth according to described temperature sensor signal.
In one embodiment, described fixed terminal or described mobile terminal send temperature control instruction to described WLAN (wireless local area network), described one-chip computer module turns WIFI module by described serial ports and receives described temperature control instruction, and control described first relay and described second relay according to described temperature control instruction, to control the temperature of each booth described.
In one embodiment, described controller also comprises the register be connected with described one-chip computer module, for storing high temperature threshold value and low temperature threshold.
In one embodiment, described controller also comprises the register be connected with described one-chip computer module, for storing high temperature threshold value and low temperature threshold, the more described temperature sensor signal of described one-chip computer module and described high temperature threshold value, more described temperature sensor signal and described low temperature threshold, and control described first relay and described second relay according to described comparative result.
In one embodiment, described fixed terminal or described mobile terminal send temperature threshold and control signal to described WLAN, described one-chip computer module turns WIFI module by described serial ports and receives described temperature threshold control signal, and revises described high temperature threshold value and low temperature threshold according to described temperature threshold control signal.
In one embodiment, described LAN server is non-disk workstation formula server.
Compared with prior art, greenhouse system of the present utility model is by the display of fixed terminal and mobile terminal and controlling functions, and client can monitor greenhouse temperature in real time, and does real-time monitoring.That is, in conjunction with the automatic control of one-chip computer module and the Long-distance Control of fixed terminal or mobile terminal, can be noted abnormalities temperature control, improve the accuracy of temperature control, in addition, when booth Various Seasonal growing different crops time, by fixed terminal or mobile terminal amendment high temperature threshold value and low temperature threshold, the control temperature of booth can be changed to adapt to the growth of new crop.
Accompanying drawing explanation
Figure 1 shows that the greenhouse system based on Internet of Things temperature control according to embodiment of the present utility model.
Figure 2 shows that the structural drawing of the booth subsystem according to embodiment of the present utility model.
Figure 3 shows that heating arrangement, heat abstractor and controller according to an embodiment of the invention.
Embodiment
Below will provide detailed description to embodiment of the present utility model.Although the utility model will carry out setting forth and illustrating in conjunction with some embodiments, it should be noted that the utility model is not merely confined to these embodiments.On the contrary, the amendment carry out the utility model or equivalent replacement, all should be encompassed in the middle of right of the present utility model.
In addition, in order to better the utility model is described, in embodiment hereafter, give numerous details.It will be understood by those skilled in the art that do not have these details, the utility model can be implemented equally.In other example, known method, flow process, element and circuit are not described in detail, so that highlight purport of the present utility model.
Figure 1 shows that the greenhouse system 100 based on Internet of Things temperature control according to embodiment of the present utility model.Represented by dotted arrows with arrow in Fig. 1 flow direction of network signal.Greenhouse system 100 comprises multiple booth subsystem 102 and 104.Each subsystem of described multiple booth subsystem comprises at least one booth and WLAN service device.Fig. 1 shows two booth subsystems 102 and 104.And each booth subsystem comprises 3 booths.Those skilled in the art will appreciate that greenhouse system 100 can comprise the booth subsystem of other numbers, and each subsystem can comprise the booth of other numbers.
Figure 2 shows that the structural drawing of the booth subsystem 102 according to embodiment of the present utility model.Other subsystems have the structure similar to booth subsystem 102.Booth subsystem 102 comprises LAN server 214 and booth 202,204 and 206.LAN server 214 sets up the WLAN covering corresponding subsystem and adjacent subsystems.As described in Figure 1, the wireless network that LAN server 214 is set up covers the LAN server region in the Zone Full of booth subsystem 102 and adjacent subsystems 104.Therefore, multiple LAN server establishes the wireless network covering all booths in greenhouse system 100.
For the structure of all booths is described, at this for booth 202.Booth 202 metope is provided with heating arrangement 212, heat abstractor 206 and controller 210.Be described below with reference to Fig. 3.
Figure 3 shows that heating arrangement 212, heat abstractor 206 and controller 210 according to an embodiment of the invention.Controller 210 comprises serial ports and turns WIFI module 302, temperature sensor module 304 and one-chip computer module 306.In one embodiment, temperature sensor module 304 adopts DS18B20 digital integrate thermometer sensor, and this temperature sensor is the highest 12 bit resolutions, precision can reach 0.5 degree Celsius, employing single bus data transmits, and fully digital output, detected temperatures scope is-55 ° of C ~+125 ° C.
Serial ports turns WIFI module 302 and communicates with described WLAN.In one embodiment, serial ports turns WIFI module 302 and adopts USRWIFI232 module, and this module has UART serial ports and inner integrated ICP/IP protocol stack, and inside completes protocol conversion automatically, realize serial ports to transmit to the data of WIFI, controller equiment is received on WIFI wireless network.First output terminal of one-chip computer module 306 is connected with the electric input interface of heating arrangement 212 by the first relay.Second output terminal of one-chip computer module 306 is connected with the electric input interface of heat abstractor 206 by the second relay 308.Temperature sensor module 304 is connected with one-chip computer module 306 by the input interface of one-chip computer module 306.Serial ports is turned WIFI module 302 and is connected with one-chip computer module 306 by the bidirectional interface of one-chip computer module 306.
As shown in Figure 1, greenhouse system 100 also comprises fixed terminal 108 and mobile terminal 106.In one embodiment, fixed terminal 108 can be computer.Mobile terminal 106 can be mobile phone or palm PC.Fixed terminal 108 and mobile terminal 106 comprise wireless network card respectively, and described wireless network card and described WLAN carry out radio communication.
Advantage is, networking mode of the present utility model adopts among a small circle and sets up non-disk workstation formula LAN (Local Area Network), non-disk workstation formula LAN (Local Area Network) refers to that STA does not have storage capacity, each controller sends to AP data, controller does not have the ability of storage data, AP signal transmission to the mobile phone of user or computer, the software of mobile phone or computer end has the function of storage data, WIFI signal can be launched as AP as server with a PC or smart mobile phone, other STA is linked in WIFI signal, sets up the LAN (Local Area Network) of non-disk workstation formula in this way.
In one embodiment, temperature sensor module 304 output temperature induced signal.One-chip computer module 306 regulates the control signal of described first output terminal and described second output terminal, to control the first relay 310 and the second relay 308 respectively according to temperature sensor signal.
Specifically, controller 210 also comprises the register 308 be connected with described one-chip computer module 306, for storing high temperature threshold value and low temperature threshold.The more described temperature sensor signal of one-chip computer module 306 and described high temperature threshold value, more described temperature sensor signal and described low temperature threshold, and control the first relay 308 and the second relay 310 according to described comparative result.Therefore, according to the temperature signal that temperature sensor module 304 collects, one-chip computer module 306 in real time controls heating arrangement 212 and heat abstractor 214, to control in booth temperature in a temperature range.
In one embodiment, fixed terminal 108 or mobile terminal 106 send temperature threshold and control signal to described WLAN.One-chip computer module 306 turns WIFI module 302 by serial ports and receives described temperature threshold control signal, and revises described high temperature threshold value and low temperature threshold according to described temperature threshold control signal.
Advantage is, when booth Various Seasonal growing different crops time, revise high temperature threshold value and low temperature threshold by fixed terminal 108 or mobile terminal 106, the control temperature of booth can be changed to adapt to the growth of new crop.
In one embodiment, one-chip computer module 306 turns WIFI module 302 by serial ports and sends described temperature sensor signal to described WLAN.The wireless network card of fixed terminal 108 and the wireless network card of mobile terminal 106 receive described temperature sensor signal respectively.Fixed terminal 108 and mobile terminal 106 comprise display screen respectively, for showing the temperature of each booth according to described temperature sensor signal.In addition, user can monitor greenhouse temperature in real time, and send temperature control instruction to WLAN (wireless local area network) by fixed terminal 108 or mobile terminal 106, one-chip computer module 306 turns WIFI module 302 by serial ports and receives described temperature control instruction, and control the first relay 310 and the second relay 308 according to described temperature control instruction, to control the temperature of each booth described.
Advantage is, by display and the controlling functions of fixed terminal 108 and mobile terminal 106, client can monitor greenhouse temperature in real time, and does real-time monitoring.That is, in conjunction with the automatic control of one-chip computer module 306 and the Long-distance Control of fixed terminal or mobile terminal, can note abnormalities temperature control, improves the accuracy of temperature control.
Specifically, user runs the APK of mobile phone terminal or the EXE file of computer end, mobile phone or computer realize the display constantly of temperature, instruction is inputted with character style with on mobile phone or computer, press and send button, character instruction being converted to ICP/IP protocol bag is transferred in Internet, send to server, or directly send to server on a local area network, the serial ports that instruction is passed to controller module 210 by server automatically turns in WIFI module 302, serial ports turns WIFI module 302 inside automatically to be completed ICP/IP protocol bag and changes to the data of serial ports, serial ports turns WIFI module 302 and again serial data is passed to single-chip microcomputer by RXD TXD pin, one-chip computer module 306 performs corresponding program after receiving corresponding instruction.In one embodiment, user sends " A " by operating handset or computer, then one-chip computer module 306 controls the first relay 310 and closes, and performs and opens heating arrangement instruction.Send " a ", then one-chip computer module 306 controls the first relay 310 and disconnects, and performs and closes heating arrangement instruction.In like manner, send " B ", then one-chip computer module 306 controls the second relay 308 and closes, and performs and opens heat radiation instruction.Send " b ", then one-chip computer module 306 controls the second relay 308 and disconnects, and performs and closes heat radiation instruction.
Embodiment and accompanying drawing are only the conventional embodiment of the utility model above.Obviously, various supplement, amendment and replacement can be had under the prerequisite not departing from the utility model spirit that claims define and utility model scope.It should be appreciated by those skilled in the art that the utility model can change in form, structure, layout, ratio, material, element, assembly and other side under the prerequisite not deviating from utility model criterion according to concrete environment and job requirement in actual applications to some extent.Therefore, be only illustrative rather than definitive thereof in the embodiment of this disclosure, the scope of the utility model is defined by appended claim and legal equivalents thereof, and is not limited thereto front description.
Claims (8)
1. based on a greenhouse system for local Internet of Things temperature control, it is characterized in that, described greenhouse system comprises multiple booth subsystem, and each subsystem of described multiple booth subsystem comprises at least one booth and LAN server; The LAN server of each subsystem described sets up the WLAN covering corresponding subsystem and adjacent subsystems; Each booth metope described is provided with heating arrangement, heat abstractor and controller; Described controller comprises serial ports and turns WIFI module, temperature sensor module and one-chip computer module, and described serial ports turns WIFI module and communicates with described WLAN; First output terminal of described one-chip computer module is connected with the electric input interface of described heating arrangement by the first relay; Second output terminal of described one-chip computer module is connected with the electric input interface of described heat abstractor by the second relay; Described temperature sensor module is connected with described one-chip computer module by the input interface of described one-chip computer module; Described serial ports is turned WIFI module and is connected with described one-chip computer module by the bidirectional interface of described one-chip computer module; Described greenhouse system also comprises fixed terminal and mobile terminal; Described fixed terminal and described mobile terminal comprise wireless network card respectively, and described wireless network card and described WLAN carry out radio communication.
2. the greenhouse system based on local Internet of Things temperature control according to claim 1, it is characterized in that, described temperature sensor module output temperature induced signal, described one-chip computer module regulates the control signal of described first output terminal and described second output terminal, to control described first relay and described second relay respectively according to described temperature sensor signal.
3. the greenhouse system based on local Internet of Things temperature control according to claim 2, is characterized in that, described one-chip computer module turns WIFI module by described serial ports and sends described temperature sensor signal to described WLAN; The wireless network card of described fixed terminal and the wireless network card of described mobile terminal receive described temperature sensor signal respectively; Described fixed terminal and described mobile terminal comprise display screen respectively, for showing the temperature of each booth according to described temperature sensor signal.
4. the greenhouse system based on local Internet of Things temperature control according to claim 3, it is characterized in that, described fixed terminal or described mobile terminal send temperature control instruction to described WLAN (wireless local area network), described one-chip computer module turns WIFI module by described serial ports and receives described temperature control instruction, and control described first relay and described second relay according to described temperature control instruction, to control the temperature of each booth described.
5. the greenhouse system based on local Internet of Things temperature control according to claim 1 or 2 or 3 or 4, it is characterized in that, described controller also comprises the register be connected with described one-chip computer module, for storing high temperature threshold value and low temperature threshold.
6. the greenhouse system based on local Internet of Things temperature control according to claim 5, it is characterized in that, described controller also comprises the register be connected with described one-chip computer module, for storing high temperature threshold value and low temperature threshold, the more described temperature sensor signal of described one-chip computer module and described high temperature threshold value, more described temperature sensor signal and described low temperature threshold, and control described first relay and described second relay according to described comparative result.
7. the greenhouse system based on local Internet of Things temperature control according to claim 6, it is characterized in that, described fixed terminal or described mobile terminal send temperature threshold and control signal to described WLAN, described one-chip computer module turns WIFI module by described serial ports and receives described temperature threshold control signal, and revises described high temperature threshold value and low temperature threshold according to described temperature threshold control signal.
8. the greenhouse system based on local Internet of Things temperature control according to claim 1, is characterized in that, described LAN server is non-disk workstation formula server.
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CN201420828233.6U CN204270134U (en) | 2014-12-24 | 2014-12-24 | A kind of greenhouse system based on local Internet of Things temperature control |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107277161A (en) * | 2017-07-13 | 2017-10-20 | 深圳市盛路物联通讯技术有限公司 | Data control method and equipment |
CN107562096A (en) * | 2017-07-17 | 2018-01-09 | 深圳市盛路物联通讯技术有限公司 | Data processing method and relevant device |
CN109819820A (en) * | 2019-02-27 | 2019-05-31 | 常州工程职业技术学院 | A kind of agricultural planting greenhouse based on Internet of Things |
-
2014
- 2014-12-24 CN CN201420828233.6U patent/CN204270134U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107277161A (en) * | 2017-07-13 | 2017-10-20 | 深圳市盛路物联通讯技术有限公司 | Data control method and equipment |
WO2019010779A1 (en) * | 2017-07-13 | 2019-01-17 | 深圳市盛路物联通讯技术有限公司 | Data control method and device |
CN107562096A (en) * | 2017-07-17 | 2018-01-09 | 深圳市盛路物联通讯技术有限公司 | Data processing method and relevant device |
CN109819820A (en) * | 2019-02-27 | 2019-05-31 | 常州工程职业技术学院 | A kind of agricultural planting greenhouse based on Internet of Things |
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