CN203732738U - Wireless data processing system for field meteorological data acquisition - Google Patents

Wireless data processing system for field meteorological data acquisition Download PDF

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Publication number
CN203732738U
CN203732738U CN201420076222.7U CN201420076222U CN203732738U CN 203732738 U CN203732738 U CN 203732738U CN 201420076222 U CN201420076222 U CN 201420076222U CN 203732738 U CN203732738 U CN 203732738U
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CN
China
Prior art keywords
model
power supply
radio
microprocessor
radio frequency
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Expired - Fee Related
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CN201420076222.7U
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Chinese (zh)
Inventor
王懋
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ANHUI YUXIN ELECTRONIC TECHNOLOGY Co Ltd
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ANHUI YUXIN ELECTRONIC TECHNOLOGY Co Ltd
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Priority to CN201420076222.7U priority Critical patent/CN203732738U/en
Application granted granted Critical
Publication of CN203732738U publication Critical patent/CN203732738U/en
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Expired - Fee Related legal-status Critical Current

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Abstract

The utility model relates to a wireless data processing system for field meteorological data acquisition. Compared with the prior art, defects of low measuring efficiency and poor anti-interference capability can be solved. The wireless data processing system of the utility model comprises a wind speed sensor, a wind direction sensor, an atmospheric temperature sensor and an atmospheric humidity sensor. A microprocessor and a data server are further comprised. The wind speed sensor, the wind direction sensor, the atmospheric temperature sensor and the atmospheric humidity sensor are connected with the PC0, PC1, PC2 and PC3 ports of the microprocessor separately. The PA9 and PA10 ports of the microprocessor are connected with a radio frequency transmitter. The data server is connected with a storage device and a communication interface circuit A separately. The communication interface circuit A is connected with a radio frequency transceiver. According to the utility model, meteorological data acquisition can be performed through a plurality of sensors, and data transmission and display can be performed through the wireless radio frequency technology.

Description

A kind of radio data processing system for outfield meteorological data collection
Technical field
The utility model relates to data handling system technical field, is a kind of radio data processing system for outfield meteorological data collection specifically.
Background technology
All need to carry out aerological sounding among a small circle in a lot of places at present, as parking lot, testing field etc.Particularly, in vehicle test ground, need to know the various weather datas in parking lot in order to carry out vehicle performance test, as wind speed, wind direction, atmospheric temperature, atmospheric humidity, rainfall, atmospheric pressure etc.Traditional meteorological data collection adopts artificial mode conventionally, and need survey crew to carry surveying instrument and measure on the spot, not only inefficiency, and easily there is mistake, and automaticity is low, and real-time is low.How to develop a kind of Design of meteorological data collection with low cost, that automaticity is high, antijamming capability is strong and become the technical matters of being badly in need of solution.
Utility model content
The purpose of this utility model is in prior art, to measure in order to solve that efficiency is low, the defect of poor anti jamming capability, provides a kind of radio data processing system for outfield meteorological data collection to solve the problems referred to above.
To achieve these goals, the technical solution of the utility model is as follows:
A kind of radio data processing system for outfield meteorological data collection, comprise air velocity transducer, wind transducer, atmosphere temperature transducer and atmospheric humidity sensor, also comprise microprocessor and data server, described air velocity transducer, wind transducer, atmosphere temperature transducer and atmospheric humidity sensor respectively with the PC0 of microprocessor, PC1, PC2 is connected with PC3 port, the PA9 of microprocessor is connected with radio-frequency (RF) transmitter with PA10 port, described data server is connected with respectively storer and communication interface circuit A, communication interface circuit A is connected with radio frequency reception transmitter.
Also comprise radio frequency receiver, communication interface circuit B and display screen, described radio frequency receiver is connected with display screen by communication interface circuit B.
The model of described microprocessor is STM32F107VC, and the model of air velocity transducer is PHWS-5V-M, and the model of wind transducer is PHWD-5V-V, and the model of atmosphere temperature transducer is PHQW-2.5V-V2, and the model of atmospheric humidity sensor is PHQS-5V-V.
Also comprise solar panel, power supply A, power supply B and power supply C, described power supply A is connected with radio-frequency (RF) transmitter with microprocessor respectively, power supply B is connected with radio frequency reception transmitter, and power supply C is connected with radio frequency receiver, and described solar panel is connected with power supply A by battery.
beneficial effect
A kind of radio data processing system for outfield meteorological data collection of the present utility model, compared with prior art can carry out meteorological data collection by multiple sensors, and carry out data transmission and demonstration by wireless radio-frequency, be suitable for the place that need to gather weather data.The feature such as there is low-power consumption, low cost, dirigibility is high, antijamming capability is strong.
brief description of the drawings
Fig. 1 is structural representation of the present utility model
Wherein, 11-air velocity transducer, 12-wind transducer, 13-atmosphere temperature transducer, 14-atmospheric humidity sensor, 15-radio-frequency (RF) transmitter, 16-battery, 17-power supply A, 18-solar panel, 20-radio frequency reception transmitter, 21-communication interface circuit A, 22-data server, 23-storer, 24-power supply B, 30-radio frequency receiver, 31-communication interface circuit B, 32-display screen, 33-power supply C.
Embodiment
For making that architectural feature of the present utility model and effect of reaching are had a better understanding and awareness, coordinate detailed explanation in order to preferred embodiment and accompanying drawing, be described as follows:
As shown in Figure 1, a kind of radio data processing system for outfield meteorological data collection described in the utility model, comprise air velocity transducer 11, wind transducer 12, atmosphere temperature transducer 13 and atmospheric humidity sensor 14, be respectively used to measure wind speed, wind direction, atmospheric temperature, the atmospheric humidity in outfield, according to actual needs, can also install barometric pressure sensor and rain sensor additional.The model of air velocity transducer 11 can be PHWS-5V-M, the model of wind transducer 12 can be PHWD-5V-V, the model of atmosphere temperature transducer 13 can be PHQW-2.5V-V2, the model of atmospheric humidity sensor 14 can be PHQS-5V-V, and the model of barometric pressure sensor can be that the model of PHQY-5V-W2, rain sensor can be PHYL-5V-M.Also comprise microprocessor 10 and data server 22, the data that microprocessor 10 sends over for accepting each sensor, in order to ensure result of use, it is the chip of STM32F107VC that microprocessor 10 can be selected model, STM32F107VC adopts CORTEX-M3 kernel, belongs to ARM11 series.Its highest frequency can reach 72MHz, and good performance, abundant peripheral hardware resource can ensure high weather data sample frequency, can ensure real-time and the accuracy of radio communication simultaneously.Air velocity transducer 11, wind transducer 12, atmosphere temperature transducer 13 and atmospheric humidity sensor 14 are connected with PC0, PC1, PC2 and the PC3 port of microprocessor 10 respectively, and the simulating signal of the various sensors that collect is converted into digital signal by microprocessor 1.The PA9 of microprocessor 10 is connected with radio-frequency (RF) transmitter 15 with PA10 port, and the various weather datas after microprocessor 10 transforms outwards send through radio-frequency (RF) transmitter 15.Data server 22 is connected with respectively storer 23 and communication interface circuit A21, communication interface circuit A21 is connected with radio frequency reception transmitter 20, radio frequency reception transmitter 20 carries out radio communication with radio-frequency (RF) transmitter 15, and the weather data information that radio-frequency (RF) transmitter 15 outwards sends is received by radio frequency reception transmitter 20.After reception, passed to and in data server 22, carried out data processing again by communication interface circuit A21,23 of storeies are for storing relevant weather data information to carry out standby shelves and conveniently to transfer relevant weather data information from storer.
In order to observe easily meteorological image data whenever and wherever possible, can also comprise radio frequency receiver 30, communication interface circuit B31 and display screen 32, radio frequency receiver 30 is connected with display screen 32 by communication interface circuit B31, and radio frequency receiver 30 carries out radio communication with radio frequency reception transmitter 20.The weather data that radio frequency receiver 30 sends for received RF receiver transmitter 20, and show on display screen 32 by communication interface circuit B31.By the setting of radio frequency receiver 30, communication interface circuit B31 and display screen 32, staff, in the time checking outfield weather condition, needn't be fixed on data server and check, can within the scope of radiofrequency signal, activity check, uses convenient.The power supply supply of whole device comprises solar panel 18, power supply A17, power supply B24 and power supply C33.Power supply A17 is connected with radio-frequency (RF) transmitter 15 with microprocessor 10 respectively, provides power supply supply by power supply A17 for microprocessor 10 and radio-frequency (RF) transmitter 15.Power supply B24 is connected with radio frequency reception transmitter 20, provides power supply supply by power supply B24 for radio frequency reception transmitter 20.Power supply C33 is connected with radio frequency receiver 30, provides power supply supply by power supply C33 for radio frequency receiver 30.Solar panel 18 is connected with power supply A17 by battery 16, and because meteorological collecting device is located at outdoorly, and current consuming apparatus is too much, and power consumption is excessive, often there will be the situation that power supply A17 is inadequate.After absorbing sun power by solar panel 18, leave in battery 16, the in the situation that of power supply A17 power shortage, directly by battery 16, power supply A17 is mended to electricity, thereby meet the long-term user demand of external unit.
In the time that reality is used, first by air velocity transducer 11, wind transducer 12, atmosphere temperature transducer 13 and atmospheric humidity sensor 14 gather all kinds of weather datas in outfield, and pass to microprocessor 10 and carry out analog to digital conversion, and the data message after conversion is reached to radio frequency reception transmitter 20 by radio-frequency (RF) transmitter 15, radio frequency reception transmitter 20 first reaches by communication interface circuit A21 after receiving that data server 22 carries out data processing or standby shelves in storer 23, again data message is reached to radio frequency receiver 30, radio frequency receiver 30 shows on display screen 32 by communication interface circuit B31 again.
More than show and described ultimate principle of the present utility model, principal character and advantage of the present utility model.The technician of the industry should understand; the utility model is not restricted to the described embodiments; what in above-described embodiment and instructions, describe is principle of the present utility model; under the prerequisite that does not depart from the utility model spirit and scope, the utility model also has various changes and modifications, and these changes and improvements all fall in claimed scope of the present utility model.The protection domain that the utility model requires is defined by appending claims and equivalent thereof.

Claims (4)

1. the radio data processing system for outfield meteorological data collection, comprise air velocity transducer (11), wind transducer (12), atmosphere temperature transducer (13) and atmospheric humidity sensor (14), it is characterized in that: also comprise microprocessor (10) and data server (22), described air velocity transducer (11), wind transducer (12), atmosphere temperature transducer (13) and atmospheric humidity sensor (14) respectively with the PC0 of microprocessor (10), PC1, PC2 is connected with PC3 port, the PA9 of microprocessor (10) is connected with radio-frequency (RF) transmitter (15) with PA10 port, described data server (22) is connected with respectively storer (23) and communication interface circuit A(21), communication interface circuit A(21) be connected with radio frequency reception transmitter (20).
2. a kind of radio data processing system for outfield meteorological data collection according to claim 1, it is characterized in that: also comprise radio frequency receiver (30), communication interface circuit B(31) and display screen (32), described radio frequency receiver (30) is by communication interface circuit B(31) be connected with display screen (32).
3. a kind of radio data processing system for outfield meteorological data collection according to claim 2, it is characterized in that: the model of described microprocessor (10) is STM32F107VC, the model of air velocity transducer (11) is PHWS-5V-M, the model of wind transducer (12) is PHWD-5V-V, the model of atmosphere temperature transducer (13) is PHQW-2.5V-V2, and the model of atmospheric humidity sensor (14) is PHQS-5V-V.
4. a kind of radio data processing system for outfield meteorological data collection according to claim 2, it is characterized in that: also comprise solar panel (18), power supply A(17), power supply B(24) and power supply C(33), described power supply A(17) be connected with radio-frequency (RF) transmitter (15) with microprocessor (10) respectively, power supply B(24) be connected with radio frequency reception transmitter (20), power supply C(33) be connected with radio frequency receiver (30), described solar panel (18) is by battery (16) and power supply A(17) be connected.
CN201420076222.7U 2014-02-21 2014-02-21 Wireless data processing system for field meteorological data acquisition Expired - Fee Related CN203732738U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420076222.7U CN203732738U (en) 2014-02-21 2014-02-21 Wireless data processing system for field meteorological data acquisition

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Application Number Priority Date Filing Date Title
CN201420076222.7U CN203732738U (en) 2014-02-21 2014-02-21 Wireless data processing system for field meteorological data acquisition

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110794487A (en) * 2019-10-22 2020-02-14 福建省计量科学研究院(福建省眼镜质量检验站) Calibration device of automatic weather station based on wireless transmission

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110794487A (en) * 2019-10-22 2020-02-14 福建省计量科学研究院(福建省眼镜质量检验站) Calibration device of automatic weather station based on wireless transmission

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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: 20140723

Termination date: 20190221