CN205644127U - Water conservancy acquisition control device based on communication of big dipper satellite RDSS - Google Patents
Water conservancy acquisition control device based on communication of big dipper satellite RDSS Download PDFInfo
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- CN205644127U CN205644127U CN201620079764.9U CN201620079764U CN205644127U CN 205644127 U CN205644127 U CN 205644127U CN 201620079764 U CN201620079764 U CN 201620079764U CN 205644127 U CN205644127 U CN 205644127U
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- sensor
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- water conservancy
- remote monitoring
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Abstract
The utility model discloses a water conservancy acquisition control device based on communication of big dipper satellite RDSS. Including remote monitoring management center (1), remote monitoring management center (1) is connected through the communication interface of big dipper satellite communication link module (12) with sensor terminal (2). The utility model has the characteristics of high, applied simple to operate of transmission efficiency and saving cost.
Description
Technical field
This utility model relates to a kind of water conservancy acquisition control device, particularly a kind of logical based on big-dipper satellite RDSS
The water conservancy acquisition control device of letter.
Background technology
Current substantial amounts of hydrology collection point is normally placed in bad environments mountain area or no man's land, and current collection
The transmission of equipment is mainly connected by cable networks such as optical fiber, and this results in transmission equipment and puts into height, and data pass
Defeated difficulty;As by manually carrying out data acquisition in hydrology collection point, its working environment is arduous, and efficiency is low.
Utility model content
The purpose of this utility model is, it is provided that a kind of water conservancy acquisition controlling based on big-dipper satellite RDSS communication
Device.This utility model has efficiency of transmission height, applies easy for installation and cost-effective feature.
The technical solution of the utility model: a kind of water conservancy acquisition control device based on big-dipper satellite RDSS communication,
Including remote monitoring and administration center, heart channel Beidou satellite communication link module and sensor in remote monitoring and administration
The communication interface of terminal connects.
In aforesaid water conservancy acquisition control device based on big-dipper satellite RDSS communication, described sensor terminal
Control end be connected with electromagnetic valve array, converter, motor and water pump respectively;Described sensor terminal, electricity
Magnet valve battle array and converter are all connected with solar energy or wind-light-electricity complementary module.
In aforesaid water conservancy acquisition control device based on big-dipper satellite RDSS communication, described sensor terminal
Signals collecting end be connected with soil temperature-moisture sensor, flow transducer and liquid level sensor respectively.
In aforesaid water conservancy acquisition control device based on big-dipper satellite RDSS communication, described remotely monitors pipe
Reason is also associated with aerial temperature and humidity sensor and air velocity transducer in the heart.
In aforesaid water conservancy acquisition control device based on big-dipper satellite RDSS communication, described aerial temperature and humidity
Sensor and air velocity transducer are wireless senser, each sensor respectively with solar energy or wind-light-electricity complementary mould
Block connects.
In aforesaid water conservancy acquisition control device based on big-dipper satellite RDSS communication, described solar energy or wind
Light-electricity complementary module includes that photovoltaic module, photovoltaic module are connected with accumulator battery, and accumulator battery is with controller even
Connect.
Compared with prior art, by north between remote monitoring and administration center of the present utility model and sensor terminal
Bucket satellite communication link module realizes data transmission;By this structure, instead of the biography of the cable networks such as optical fiber
Defeated, thus save the laying of transmission line;Moreover, each sensor that this utility model is used is equal
For wireless senser, this structure has been simplified transmission line further, has been effectively saved cost.This utility model
Remote monitoring and administration center, Beidou satellite communication link module and sensor terminal between can realize multiple spot to list
Point, multi-multipoint communication, this communication its run use flow expense relatively low, thus meet high-performance,
The application demand of high efficiency, low operating cost and remote monitoring and administration.This utility model is by remotely monitoring pipe
The storage of the acquisition controlling of the complete paired data in reason center, data and center control, by sensor terminal number
According to monitoring and execution intelligent irrigation, the personalization meeting crop specie, period of duration and soil types etc. needs
Ask.This utility model connects up inconvenient field acquisition point by solar energy or wind-light-electricity complementary module to energising
Power device is powered, and is not only effectively saved electric energy, and makes to apply easier for installation.This reality
Leading between remote monitoring and administration center and sensor terminal is realized by Beidou satellite communication link module with novel
Letter so that it is communication has possessed that " anti-rain falls, capacity is big, timeliness is strong, low in energy consumption, communicate energy quick, concurrent
Power is strong " feature, regimen integral point alarm and real-time requirement in flood season can be met well.In addition, this reality
Carrying out data transmission based on big-dipper satellite RDSS communication with novel, the data transmission making collection is safer.
Accompanying drawing explanation
Fig. 1 is the structural representation that this practicality is new.
Being labeled as in accompanying drawing: 1-remote monitoring and administration center, 2-sensor terminal, 3-electromagnetic valve array, 4-
Converter, 5-motor, 6-water pump, 7-soil temperature-moisture sensor, 8-flow transducer, 9-level sensing
Device, 10-aerial temperature and humidity sensor, 11-air velocity transducer, 12-Beidou satellite communication link module, 13-
Photovoltaic module, 14-accumulator battery, 15-controller, 16-inverter.
Detailed description of the invention
With embodiment, this utility model is further described below in conjunction with the accompanying drawings, but is not intended as this reality
Foundation with novel restriction.
Embodiment.A kind of water conservancy acquisition control device based on big-dipper satellite RDSS communication, is constituted such as Fig. 1 institute
Showing, including remote monitoring and administration center 1, remote monitoring and administration center 1 is through Beidou satellite communication link module
12 are connected with the communication interface of sensor terminal 2.Can be real by arranging Beidou satellite communication link module 12
Existing overlength distance data transmission and control.
The control end of aforesaid sensor terminal 2 respectively with electromagnetic valve array 3, converter 4, motor 5 and water pump
6 connect;Described sensor terminal 2, electromagnetic valve array 3 and converter 4 all with solar energy or wind-light-electricity complementary
Module connects.By solar energy or wind-light-electricity complementary module converter solar energy and powered by wind energy.
The signals collecting end of aforesaid sensor terminal 2 respectively with soil temperature-moisture sensor 7, flow transducer
8 and liquid level sensor 9 connect.Soil temperature-moisture sensor 7, flow transducer 8 and liquid level sensor 9
Gather be all a range of signal, due to one on a large scale in, soil temperature and humidity, discharge with
And liquid level all has difference in different regions, in order to realize intelligent irrigation, precision irrigation, therefore need to gather greatly
In the range of the soil temperature and humidity of each zonule, discharge and liquid level information.
It is also associated with aerial temperature and humidity sensor 10 and air velocity transducer on aforesaid remote monitoring and administration center 1
11.Aerial temperature and humidity sensor 10 and air velocity transducer 11 mainly gather meteorologic signal, and one regional
Meteorologic signal is essentially identical, therefore is arranged near remote monitoring and administration center 1, direct and remote monitoring and administration
Center 1 connects.
Aforesaid aerial temperature and humidity sensor 10 and air velocity transducer 11 are wireless senser, each sensor
It is connected with solar energy or wind-light-electricity complementary module respectively.There is provided electric energy by this setting to sensor, not only save
Can, and optimize power supply unit, it is to avoid energising wiring so that apply easier for installation.
Aforesaid solar energy or wind-light-electricity complementary module include for solar energy or wind-light-electricity complementary are converted to electricity
Energy photovoltaic module 13, photovoltaic module 13 is connected with accumulator battery 14, and accumulator battery 14 is with controller 15 even
Connecing, controller 15 is connected with power device through inverter 16.By inverter 16 by accumulator battery 14
Unidirectional current be converted to alternating current.Power device includes sensor terminal 2, electromagnetic valve array 3, converter 4
Soil temperature-moisture sensor 7, flow transducer 8 and liquid level sensor 9 etc..
The remote monitoring and administration center 1 that this utility model uses has the man machine interface of visualization and friendly interface.
Remote monitoring and administration center 1 and sensor terminal 2 all can use solar energy or wind-light-electricity mutual according to actual needs
Mending power supply, low-power consumption mode guarantees that device uses in the mountain region of energising wiring inconvenience.
Remote monitoring and administration center 1 is communicated by Beidou satellite communication link with sensor terminal 2, no
Limited by landform and distance.Remote monitoring and administration center 1 uses automatic/hand switching Irrigation for management
Person selects, and has the advantages that center controls, and possesses setting data storehouse, historical record inquiry and storage function.
Remote monitoring and administration center 1 uses SamsungS3C2440A ARM11 chip, and sensor terminal 2 is adopted
By technical grade GRM100 acquisition control module, it is micro-that Beidou satellite communication link module 12 connects GRM202 series
Power wireless transparent data transmission module.
The work process of native system is as follows: after turning on the power, and arranges the Threshold of Temperature And Humidity when preceding crop, selects
Manually/fuzzy intelligentcontrol pattern.In a manual mode, remote monitoring and administration center 1 is led to by big-dipper satellite
Letter link module 12 controls sensor terminal 2 ON/OFF electromagnetic valve array 3, obtains humiture;In automatic mode,
Remote monitoring and administration center 1 may select timing irrigation and self adaptation is irrigated, when for timing irrigation, and manager
After setting irrigation time, the setting time can be compared by system automatically with current time.If twice are equal,
Sensor terminal 2 is controlled by Beidou satellite communication link module 12;When setting self adaptation and irrigating, remotely
The sensor humiture of each sensor terminal of supervision and management center 1 cycle detection 2, when soil temperature and humidity exceedes
During restriction, control sensor terminal 2 by Beidou satellite communication link module 12 so that it is executive component starts
Action, i.e. controls motor 5 by sensor terminal 2 and drives water pump 6 to work, and carries out water lift pouring.Whole
During control, when certain region needs pouring, sensor terminal 2 controls the electromagnetic valve array 3 in this region
In electromagnetic valve open so that water flow through piping flow out.No matter manually or automatic mode, system is all
The automatic humiture data by each node of meeting and irrigation time and current state are stored in SQL database.Touching
Touch screen interface on can carry out the amendment of Threshold of Temperature And Humidity, automatic/hand pattern switching, irrigate object choice,
Set irrigation project and check historical record.
Claims (3)
1. a water conservancy acquisition control device based on big-dipper satellite RDSS communication, it is characterized in that: include that remote monitoring and administration center (1), remote monitoring and administration center (1) are connected through the communication interface of Beidou satellite communication link module (12) with sensor terminal (2);The control end of described sensor terminal (2) is connected with electromagnetic valve array (3), converter (4), motor (5) and water pump (6) respectively;Described sensor terminal (2), electromagnetic valve array (3) and converter (4) are all connected with solar energy or wind-light-electricity complementary module;The signals collecting end of described sensor terminal (2) is connected with soil temperature-moisture sensor (7), flow transducer (8) and liquid level sensor (9) respectively;Aerial temperature and humidity sensor (10) and air velocity transducer (11) it is also associated with on described remote monitoring and administration center (1).
Water conservancy acquisition control device based on big-dipper satellite RDSS communication the most according to claim 1, it is characterized in that: described aerial temperature and humidity sensor (10) and air velocity transducer (11) are wireless senser, and each sensor is connected with solar energy or wind-light-electricity complementary module respectively.
Water conservancy acquisition control device based on big-dipper satellite RDSS communication the most according to claim 2, it is characterized in that: described solar energy or wind-light-electricity complementary module include photovoltaic module (13), photovoltaic module (13) is connected with accumulator battery (14), and accumulator battery (14) is connected with controller (15).
Priority Applications (1)
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CN201620079764.9U CN205644127U (en) | 2016-01-27 | 2016-01-27 | Water conservancy acquisition control device based on communication of big dipper satellite RDSS |
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CN201620079764.9U CN205644127U (en) | 2016-01-27 | 2016-01-27 | Water conservancy acquisition control device based on communication of big dipper satellite RDSS |
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CN205644127U true CN205644127U (en) | 2016-10-12 |
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CN201620079764.9U Expired - Fee Related CN205644127U (en) | 2016-01-27 | 2016-01-27 | Water conservancy acquisition control device based on communication of big dipper satellite RDSS |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106324227A (en) * | 2016-11-04 | 2017-01-11 | 马春强 | Soil environment monitoring method based on DES satellite and Beidou cloud system |
CN109041737A (en) * | 2018-08-08 | 2018-12-21 | 贵州现代智汇信息技术有限公司 | A kind of wind-light-electricity complementary intelligent irrigation fertilization system |
-
2016
- 2016-01-27 CN CN201620079764.9U patent/CN205644127U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106324227A (en) * | 2016-11-04 | 2017-01-11 | 马春强 | Soil environment monitoring method based on DES satellite and Beidou cloud system |
CN109041737A (en) * | 2018-08-08 | 2018-12-21 | 贵州现代智汇信息技术有限公司 | A kind of wind-light-electricity complementary intelligent irrigation fertilization system |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
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: 20161012 Termination date: 20200127 |