CN207675782U - A kind of solar energy air monitoring device of wireless WIFI - Google Patents
A kind of solar energy air monitoring device of wireless WIFI Download PDFInfo
- Publication number
- CN207675782U CN207675782U CN201820057578.4U CN201820057578U CN207675782U CN 207675782 U CN207675782 U CN 207675782U CN 201820057578 U CN201820057578 U CN 201820057578U CN 207675782 U CN207675782 U CN 207675782U
- Authority
- CN
- China
- Prior art keywords
- port
- ports
- chips
- accumulator
- wind direction
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Charge And Discharge Circuits For Batteries Or The Like (AREA)
Abstract
A kind of solar energy air monitoring device of wireless WIFI, is designed using embedded controller technology, sensor technology, WIFI wireless communication techniques, solar charging power technology, by ARM controller(1), wind direction observation circuit(2), WIFI module(3), accumulator(4), solar charging circuit(5), clock chip(6), display circuit(7)It collectively constitutes, realizes that long distance wireless wind direction monitoring function, clock signal acquire function, function of solar charging;By display circuit, wind direction display function, clock display function, battery tension display function are realized;The present apparatus have the characteristics that practicability it is relatively strong, using simple and reliable and stable.
Description
Technical field
The utility model is related to embedded controller technology, sensor technology, WIFI wireless communication techniques, solar rechargings
Technology is designed, the solar energy air monitoring device of especially a kind of wireless WIFI.
Background technology
China is agricultural planting big country, is required in agricultural planting to field measuring wind speed, therefore the utility model designs
It is combined using embedded controller technology using high performance-price ratio STM32F103V8T6 chips as core, sensor technology, WIFI is wireless
The communication technology, solar recharging Technology design go out a kind of solar energy air monitoring device of wireless WIFI.
Invention content
The purpose of this utility model is to provide the solar energy air monitoring devices of wireless WIFI a kind of, realize long distance wireless
Wind direction monitoring function, clock signal acquire function, function of solar charging;By display circuit, realize wind direction display function, when
Clock display function, battery tension display function.
Technical solution adopted by the utility model to solve its technical problems is:The utility model is with high performance-price ratio
STM32F103V8T6 chips are core combination embedded controller technology, sensor technology, WIFI wireless communication techniques, the sun
Energy charging technique is designed, it is characterised in that:ARM controller is constituted by STM32F103V8T6 chips(1), by SY-FX2 wind
Turn voltage chips to sensor, MAX472 electric currents and constitutes wind direction observation circuit(2), by ESP8266 WI-FI data transmission modules
Constitute WIFI module(3), accumulator is constituted by HR5-5V accumulators(4), by DL-X12-10W solar panels, 7805 voltage stabilizing rectifications
Power module constitutes solar charging circuit(5), clock chip is constituted by DS12C887 chips(6), by LCD1602 modules, 1k
Ohmic metal film resistance constitutes display circuit(7);Positive pole port, the cathode port of SY-FX2 wind transducers connect respectively
HR5-5V battery positive voltage port, cathode port, the ports IOUT of SY-FX2 wind transducers connect MAX472 electric currents and turn voltage core
The ports VP of piece, the ports VOUT that MAX472 electric currents turn voltage chips connect the ports PA1 of STM32F103V8T6 chips, realize wind
To monitoring function;The port PD0, PD1 of STM32F103V8T6 chips connect respectively ESP8266WI-FI data transmission modules TXD,
Long distance wireless wind direction monitoring function is realized in the ports RXD;It is whole that first output port of DL-X12-10W solar panels connects 7805 voltage stabilizings
The second output terminal mouth of galvanic electricity source module first input port, DL-X12-10W solar panels accesses 7805 voltage stabilizing rectifier power source moulds
The second input port of block, 7805 voltage stabilizing rectifier power supply module cathode output ends connect the cathode port of HR5-5V accumulators, and 7805 is steady
Pressure rectifier power supply module cathode output end connects the ports HR5-5V accumulator positive 5V, realizes accumulator charge function;
The ports PD7 of STM32F103V8T6 chips connect the ports HR5-5V accumulator positive 5V, realize the voltage detecting of accumulator;
The ports PB0-PB7 of STM32F103V8T6 chips connect the ports AD0-AD7 of DS12C887 chips, STM32F103V8T6 chips
The port PA2, PA3, PA4, PA5, PA7 connects the port AS, R/W, DS, CS, IRQ of DS12C887 chips, acquires date data;
The ports PC0-PC7 of STM32F103V8T6 chips meet the DB0-DB7 of LCD1602 modules, and the ports WL of LCD1602 modules connect one
A 1k ohmic metals film resistance is followed by the ports HR5-5V accumulator positive 5V, and the port PD4, PD6 of STM32F103V8T6 chips connects
Wind direction display function, clock display function, battery tension display function are realized in the port RS, EN of LCD1602 modules.
The utility model has the beneficial effects that:The utility model is using high performance-price ratio STM32F103V8T6 chips as core knot
It closes and is designed using embedded controller technology, sensor technology, WIFI wireless communication techniques, solar charging power technology, it is real
Existing long distance wireless wind direction monitoring function, clock signal acquire function, function of solar charging;By display circuit, wind direction is realized
Display function, clock display function, battery tension display function;The present apparatus is relatively strong with practicability, uses simple and stabilization
The features such as reliable.
Description of the drawings
The utility model will be further described below in conjunction with the accompanying drawings.
It is the principles of the present invention structure diagram shown in Fig. 1, in figure:1. ARM controller, 2. wind direction observation circuits, 3.
WIFI module, 4. accumulators, 5. solar charging circuits, 6. clock chips, 7. display circuits.
Specific implementation mode
Referring to Fig. 1 the utility model by ARM controller(1), wind direction observation circuit(2), WIFI module(3), accumulator
(4), solar charging circuit(5), clock chip(6), display circuit(7)It collectively constitutes, is made of STM32F103V8T6 chips
ARM controller(1).
Voltage chips are turned by SY-FX2 wind transducers, MAX472 electric currents and constitute wind direction observation circuit(2), SY-FX2 wind directions
Positive pole port, the cathode port of sensor connect HR5-5V battery positive voltage port, cathode port respectively, and SY-FX2 wind directions pass
The ports IOUT of sensor connect the ports VP that MAX472 electric currents turn voltage chips, and the ports VOUT that MAX472 electric currents turn voltage chips connect
Wind direction monitoring function is realized in the ports PA1 of STM32F103V8T6 chips.
WIFI module is constituted by ESP8266 WI-FI data transmission modules(3), PD0, PD1 of STM32F103V8T6 chips
Port connects the port TXD, RXD of ESP8266WI-FI data transmission modules respectively, realizes long distance wireless wind direction monitoring function.
Accumulator is constituted by HR5-5V accumulators(4), by DL-X12-10W solar panels, 7805 voltage stabilizing rectifier power supply modules
Constitute solar charging circuit(5), the first output port of DL-X12-10W solar panels connects 7805 voltage stabilizing rectifier power supply modules
The second output terminal mouth of first input port, DL-X12-10W solar panels accesses the input of 7805 voltage stabilizing rectifier power supply modules second
Port, 7805 voltage stabilizing rectifier power supply module cathode output ends connect the cathode port of HR5-5V accumulators, 7805 voltage stabilizing rectifier power sources
Module cathode output end connects the ports HR5-5V accumulator positive 5V, realizes accumulator charge function, STM32F103V8T6 chips
The ports PD7 connect the ports HR5-5V accumulator positive 5V, realize the voltage detecting of accumulator.
Clock chip is constituted by DS12C887 chips(6), the ports PB0-PB7 of STM32F103V8T6 chips connect
The port PA2, PA3, PA4, PA5, PA7 of the ports AD0-AD7 of DS12C887 chips, STM32F103V8T6 chips connects
The port AS, R/W, DS, CS, IRQ of DS12C887 chips acquires date data.
Display circuit is constituted by LCD1602 modules, 1k ohmic metal film resistances(7), the PC0- of STM32F103V8T6 chips
The ports PC7 meet the DB0-DB7 of LCD1602 modules, and the ports WL of LCD1602 modules connect a 1k ohmic metal film resistance and are followed by
The port PD4, PD6 of the ports HR5-5V accumulator positive 5V, STM32F103V8T6 chips connects the port RS, EN of LCD1602 modules,
Realize wind direction display function, clock display function, battery tension display function.
Claims (1)
1. the solar energy air monitoring device of a kind of wireless WIFI, by ARM controller(1), wind direction observation circuit(2), WIFI moulds
Block(3), accumulator(4), solar charging circuit(5), clock chip(6), display circuit(7)It collectively constitutes, it is characterised in that:
A) constitutes ARM controller by STM32F103V8T6 chips(1), voltage core is turned by SY-FX2 wind transducers, MAX472 electric currents
Piece constitutes wind direction observation circuit(2), WIFI module is constituted by ESP8266 WI-FI data transmission modules(3), by HR5-5V electric power storages
Pond constitutes accumulator(4), solar charging circuit is constituted by DL-X12-10W solar panels, 7805 voltage stabilizing rectifier power supply modules
(5), clock chip is constituted by DS12C887 chips(6), display circuit is constituted by LCD1602 modules, 1k ohmic metal film resistances
(7);B) the positive pole port, cathode port of .SY-FX2 wind transducers connect HR5-5V battery positive voltage port, cathode respectively
The ports IOUT of port, SY-FX2 wind transducers connect the ports VP that MAX472 electric currents turn voltage chips, and MAX472 electric currents turn electricity
The ports VOUT of pressure chip connect the ports PA1 of STM32F103V8T6 chips, realize wind direction monitoring function;c)
.STM32F103V8T6 the port PD0, PD1 of chip connects the port TXD, RXD of ESP8266WI-FI data transmission modules respectively, real
Existing long distance wireless wind direction monitoring function;D) the first output port of DL-X12-10W solar panels connects 7805 voltage stabilizing rectifier power sources
The second output terminal mouth of module first input port, DL-X12-10W solar panels accesses 7805 voltage stabilizing rectifier power supply modules second
Input port, 7805 voltage stabilizing rectifier power supply module cathode output ends connect the cathode port of HR5-5V accumulators, 7805 voltage stabilizing rectifications
Power module cathode output end connects the ports HR5-5V accumulator positive 5V, realizes accumulator charge function;e).STM32F103V8T6
The ports PD7 of chip connect the ports HR5-5V accumulator positive 5V, realize the voltage detecting of accumulator;F) STM32F103V8T6 cores
The ports PB0-PB7 of piece connect the ports AD0-AD7 of DS12C887 chips, PA2, PA3 of STM32F103V8T6 chips, PA4,
The port PA5, PA7 connects the port AS, R/W, DS, CS, IRQ of DS12C887 chips, acquires date data;g).
The ports PC0-PC7 of STM32F103V8T6 chips meet the DB0-DB7 of LCD1602 modules, and the ports WL of LCD1602 modules connect one
A 1k ohmic metals film resistance is followed by the ports HR5-5V accumulator positive 5V, and the port PD4, PD6 of STM32F103V8T6 chips connects
Wind direction display function, clock display function, battery tension display function are realized in the port RS, EN of LCD1602 modules.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201820057578.4U CN207675782U (en) | 2018-01-15 | 2018-01-15 | A kind of solar energy air monitoring device of wireless WIFI |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201820057578.4U CN207675782U (en) | 2018-01-15 | 2018-01-15 | A kind of solar energy air monitoring device of wireless WIFI |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN207675782U true CN207675782U (en) | 2018-07-31 |
Family
ID=62973959
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201820057578.4U Expired - Fee Related CN207675782U (en) | 2018-01-15 | 2018-01-15 | A kind of solar energy air monitoring device of wireless WIFI |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN207675782U (en) |
-
2018
- 2018-01-15 CN CN201820057578.4U patent/CN207675782U/en not_active Expired - Fee Related
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN104734228A (en) | Solar panel measuring circuit of solar charge controller of common positive pole structure | |
| CN104810892B (en) | A kind of hybrid power source system and method for flapping wing artificial bird type aircraft | |
| CN207675782U (en) | A kind of solar energy air monitoring device of wireless WIFI | |
| CN202276158U (en) | Portable solar energy mobile power supply | |
| CN202631108U (en) | Irradiance and temperature monitoring system for photovoltaic assembly | |
| CN203225554U (en) | Solar energy lithium battery charger based on single-chip microcomputer | |
| CN204116871U (en) | Based on the miniature mobile robot control system of Android | |
| CN204472586U (en) | Based on the electric car power supply control setup of autonomous o-volt protection | |
| CN204089239U (en) | A kind of cell batteries dynamic equalization charging circuit | |
| CN209963822U (en) | Flexible power module and electronic equipment | |
| CN206805246U (en) | A kind of reservoir rainfall, water turbidity, water level parameters monitoring device | |
| CN203039615U (en) | Photovoltaic power generation energy management system based on super capacitor | |
| CN209218436U (en) | Wireless remote control solar street light driver | |
| CN202794291U (en) | Simple circuit for measuring single cell voltages of series battery containing any number of cells | |
| CN112327386B (en) | Meteorological monitoring devices based on bacterial power generation | |
| CN201966677U (en) | Singlechip controlled BOOST wind power generation boost charge circuit | |
| CN203645371U (en) | Cell panel measuring circuit of solar charge controller with common-anode structure | |
| CN201204479Y (en) | Control integrated circuit for lithium battery charger and electrification indication control circuit thereof | |
| CN207704650U (en) | A kind of small-sized solar traffic signal light device | |
| CN201910635U (en) | Load power loop of MPPT (maximum power point tracking) type solar charging controller based on PSoC (partial stage of charge) | |
| CN202696220U (en) | Intermittent electric energy feed-in uninterruptible power supply | |
| CN203691363U (en) | Three-end switch-based low-power-consumption wake-up circuit | |
| CN203275588U (en) | Experiment device for solar cell characteristics | |
| CN201966640U (en) | Voltage and current timely feed control circuit | |
| CN102622023B (en) | Current feedback sensor single supply system |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20180731 Termination date: 20190115 |