CN205210071U - Ditch water quality monitoring system irrigates based on zigBee - Google Patents
Ditch water quality monitoring system irrigates based on zigBee Download PDFInfo
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- CN205210071U CN205210071U CN201521067528.7U CN201521067528U CN205210071U CN 205210071 U CN205210071 U CN 205210071U CN 201521067528 U CN201521067528 U CN 201521067528U CN 205210071 U CN205210071 U CN 205210071U
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- water quality
- quality monitoring
- zigbee
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Abstract
The utility model relates to a ditch water quality monitoring system irrigates based on zigBee, it includes the host computer, the host computer passes through a plurality of zigBee water quality monitoring subnets of internet connection, the zigBee water quality monitoring subnet contains power supply circuit, reset circuit, keying circuit, liquid crystal display, the JTAG circuit, warning circuit, a weighing sensor and a temperature sensor, PH value sensor, dissolve oxygen sensor, conductivity sensor, the modulate circuit, turbidity sensor, velocity of flow sensor, the antenna, serial circuits, a controller, the input connect temperature sensor of modulate circuit, PH value sensor, dissolve oxygen sensor, conductivity sensor, turbidity sensor, velocity of flow sensor, the output connection director of modulate circuit, power supply circuit is all connected to the input and the output of controller, reset circuit, keying circuit, liquid crystal display, the JTAG circuit, warning circuit, serial circuits, the antenna, it is total, the utility model has the advantages of testing speed is fast, efficient, with low costs.
Description
Technical field
Of the present utility modelly belong to technical field of waste water processing, be specifically related to a kind of Irrigation Ditch water quality monitoring system based on ZigBee.
Background technology
At present, water resource just suffer from serious pollution, this has threatened the sustainable development of ecologic environment and agricultural, and the water quality monitoring technological means of China is also relatively backward, main or that dependence laboratory is artificial mode detects, this monitoring mode speed is slow, efficiency is low, cost is high, can not meet the needs of Irrigation Ditch water quality monitoring, needs to research and develop a kind of Irrigation Ditch water quality monitoring system based on ZigBee for solving the problem.
Summary of the invention
The purpose of this utility model is to overcome the deficiencies in the prior art, and provides the Irrigation Ditch water quality monitoring system based on ZigBee that a kind of test speed is fast, efficiency is high, cost is low.
The purpose of this utility model is achieved in that a kind of Irrigation Ditch water quality monitoring system based on ZigBee, it comprises host computer, described host computer is connected with some ZigBee water quality monitoring subnets by internet, and described ZigBee water quality monitoring subnet is by GPRS network connecting Internet, described ZigBee water quality monitoring subnet includes power circuit, reset circuit, key circuit, liquid crystal display, jtag circuit, warning circuit, temperature sensor, pH sensor, dissolved oxygen sensor, conductivity sensor, modulate circuit, turbidity transducer, flow sensor, antenna, serial port circuit, controller, the input end of described modulate circuit is connected with temperature sensor, pH sensor, dissolved oxygen sensor, conductivity sensor, turbidity transducer, flow sensor, the output terminal of described modulate circuit is connected with controller, input end and the output terminal of described controller are all connected with power circuit, reset circuit, key circuit, liquid crystal display, jtag circuit, warning circuit, serial port circuit, antenna, described controller is CC2430, and described flow sensor is turbine flow transducer.
Described temperature sensor is WQ101.
Described pH sensor is WQ201.
Described dissolved oxygen sensor is WQ401.
Described conductivity sensor is WQ301.
Described turbidity transducer is WQ730.
The beneficial effects of the utility model: the utility model adopts power circuit, reset circuit, key circuit, liquid crystal display, jtag circuit, warning circuit, temperature sensor, pH sensor, dissolved oxygen sensor, conductivity sensor, modulate circuit, turbidity transducer, flow sensor, antenna, serial port circuit, a kind of Irrigation Ditch water quality monitoring system based on ZigBee of controller composition, have that technique is simple, safety, environmental protection, efficiency is high, processing speed is fast advantage; The utility model completes by water turbidity sensor, temperature sensor, dissolved oxygen sensor, conductivity sensor, pH sensor, flow sensor, button, liquid crystal display, ZigBee the temperature, pH value, conductivity, dissolved oxygen DO, turbidity and the flow speed data that gather irrigation water, has easy to operate, effective, that cost is low, durable advantage; Turbine flow transducer of the present utility model utilizes magneto-electronic theory to design, and the rotation of turbine stimulates Hall switch to produce pulse, and processor calculates the umber of pulse in the unit interval, just can know the flow velocity of fluid, has mode of operation convenient, uses flexibly; Selection to water quality sensor of the present utility model, according to the singularity of its work, and turbidity, temperature, dissolved oxygen DO, conductivity, these indexs of pH value will be detected, general sensor is inapplicable, even if find such sensor also will do a little special processing, cost is quite high, and the WQ series water quality sensor being specifically applied to water environment measurement that GLOBALWATER company of the U.S. produces has very high precision and measurement accuracy, safe and reliable, and the water quality sensor that other companies of cost ratio produce is low; Irrigation Ditch water quality monitoring system of the present utility model is with a natural village for monitoring unit, and monitoring center is located in each natural village, is responsible for the water quality monitoring of the Irrigation Ditch around whole natural village; Total, the utility model has the advantage that test speed is fast, efficiency is high, cost is low.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of a kind of Irrigation Ditch water quality monitoring system based on ZigBee of the present utility model.
Fig. 2 is the collecting device node structure figure of a kind of Irrigation Ditch water quality monitoring system based on ZigBee of the present utility model.
In figure: 1, power circuit 2, reset circuit 3, key circuit 4, liquid crystal display 5, jtag circuit 6, warning circuit 7, temperature sensor 8, pH sensor 9, dissolved oxygen sensor 10, conductivity sensor 11, modulate circuit 12, turbidity transducer 13, flow sensor 14, antenna 15, serial port circuit 16, controller.
Embodiment
Be described further of the present utility model below in conjunction with accompanying drawing.
Embodiment 1
As shown in Figure 1 and Figure 2, a kind of Irrigation Ditch water quality monitoring system based on ZigBee, it comprises host computer, and described host computer is connected with some ZigBee water quality monitoring subnets by internet, and described ZigBee water quality monitoring subnet is by GPRS network connecting Internet, described ZigBee water quality monitoring subnet includes power circuit 1, reset circuit 2, key circuit 3, liquid crystal display 4, jtag circuit 5, warning circuit 6, temperature sensor 7, pH sensor 8, dissolved oxygen sensor 9, conductivity sensor 10, modulate circuit 11, turbidity transducer 12, flow sensor 13, antenna 14, serial port circuit 15, controller 16, the input end of described modulate circuit 11 is connected with temperature sensor 7, pH sensor 8, dissolved oxygen sensor 9, conductivity sensor 10, turbidity transducer 12, flow sensor 13, the output terminal of described modulate circuit 11 is connected with controller 16, input end and the output terminal of described controller 16 are all connected with power circuit 1, reset circuit 2, key circuit 3, liquid crystal display 4, jtag circuit 5, warning circuit 6, serial port circuit 15, antenna 14, described controller 16 is CC2430, and described flow sensor 13 is turbine flow transducer.
When the utility model is implemented, host computer connects some ZigBee water quality monitoring subnets by internet, and ZigBee water quality monitoring subnet is by GPRS network connecting Internet, ZigBee water quality monitoring subnet comprises power circuit 1, reset circuit 2, key circuit 3, liquid crystal display 4, jtag circuit 5, warning circuit 6, temperature sensor 7, pH sensor 8, dissolved oxygen sensor 9, conductivity sensor 10, modulate circuit 11, turbidity transducer 12, flow sensor 13, antenna 14, serial port circuit 15, controller 16, the input end of modulate circuit 11 connects temperature sensor 7, pH sensor 8, dissolved oxygen sensor 9, conductivity sensor 10, turbidity transducer 12, flow sensor 13, the output terminal connection control device 16 of modulate circuit 11, the input end of controller 16 is all connected power circuit 1 with output terminal, reset circuit 2, key circuit 3, liquid crystal display 4, jtag circuit 5, warning circuit 6, serial port circuit 15, antenna 14, controller 16 is CC2430, and flow sensor 13 is turbine flow transducer, the utility model can be come into operation after completing above-mentioned installation, by each water quality data sensor, first the signal exported is passed to signal conditioning circuit, signal conditioning circuit passes to CC2430 after carrying out conditioning conversion and filtering process to these signals, CC2430 is gathered the signal after conversion by the A/D of oneself inside, and do relevant treatment, then the data processed are sent to the coordinator node of Zigbee network through ZigBee wireless launcher, total, the utility model has the advantage that test speed is fast, efficiency is high, cost is low.
Embodiment 2
As shown in Figure 1 and Figure 2, a kind of Irrigation Ditch water quality monitoring system based on ZigBee, it comprises host computer, and described host computer is connected with some ZigBee water quality monitoring subnets by internet, and described ZigBee water quality monitoring subnet is by GPRS network connecting Internet, described ZigBee water quality monitoring subnet includes power circuit 1, reset circuit 2, key circuit 3, liquid crystal display 4, jtag circuit 5, warning circuit 6, temperature sensor 7, pH sensor 8, dissolved oxygen sensor 9, conductivity sensor 10, modulate circuit 11, turbidity transducer 12, flow sensor 13, antenna 14, serial port circuit 15, controller 16, the input end of described modulate circuit 11 is connected with temperature sensor 7, pH sensor 8, dissolved oxygen sensor 9, conductivity sensor 10, turbidity transducer 12, flow sensor 13, the output terminal of described modulate circuit 11 is connected with controller 16, input end and the output terminal of described controller 16 are all connected with power circuit 1, reset circuit 2, key circuit 3, liquid crystal display 4, jtag circuit 5, warning circuit 6, serial port circuit 15, antenna 14, described controller 16 is CC2430, described flow sensor 13 is turbine flow transducer, described temperature sensor 7 is WQ101, described pH sensor 8 is WQ201, described dissolved oxygen sensor 9 is WQ401, described conductivity sensor 10 is WQ301, and described turbidity transducer 12 is WQ730.
When the utility model is implemented, host computer connects some ZigBee water quality monitoring subnets by internet, and ZigBee water quality monitoring subnet is by GPRS network connecting Internet, ZigBee water quality monitoring subnet comprises power circuit 1, reset circuit 2, key circuit 3, liquid crystal display 4, jtag circuit 5, warning circuit 6, temperature sensor 7, pH sensor 8, dissolved oxygen sensor 9, conductivity sensor 10, modulate circuit 11, turbidity transducer 12, flow sensor 13, antenna 14, serial port circuit 15, controller 16, the input end of modulate circuit 11 connects temperature sensor 7, pH sensor 8, dissolved oxygen sensor 9, conductivity sensor 10, turbidity transducer 12, flow sensor 13, the output terminal connection control device 16 of modulate circuit 11, the input end of controller 16 is all connected power circuit 1 with output terminal, reset circuit 2, key circuit 3, liquid crystal display 4, jtag circuit 5, warning circuit 6, serial port circuit 15, antenna 14, controller 16 is CC2430, and flow sensor 13 is turbine flow transducer, the utility model can be come into operation after completing above-mentioned installation, by each water quality data sensor, first the signal exported is passed to signal conditioning circuit, signal conditioning circuit passes to CC2430 after carrying out conditioning conversion and filtering process to these signals, CC2430 is gathered the signal after conversion by the A/D of oneself inside, and do relevant treatment, then the data processed are sent to the coordinator node of Zigbee network through ZigBee wireless launcher, temperature sensor 7 of the present utility model is WQ101, and pH sensor 8 is WQ201, and dissolved oxygen sensor 9 is WQ401, and conductivity sensor 10 is WQ301, and turbidity transducer 12 is WQ730, has that cost is low, effective, the advantage of high precision, high accuracy, total, the utility model has the advantage that test speed is fast, efficiency is high, cost is low.
Claims (6)
1. the Irrigation Ditch water quality monitoring system based on ZigBee, it comprises host computer, it is characterized in that: described host computer is connected with some Zigbee water quality monitoring subnets by internet, described Zigbee water quality monitoring subnet is by GPRS network connecting Internet, described Zigbee water quality monitoring subnet includes power circuit, reset circuit, key circuit, liquid crystal display, jtag circuit, warning circuit, temperature sensor, pH sensor, dissolved oxygen sensor, conductivity sensor, modulate circuit, turbidity transducer, flow sensor, antenna, serial port circuit, controller, the input end of described modulate circuit is connected with temperature sensor, pH sensor, dissolved oxygen sensor, conductivity sensor, turbidity transducer, flow sensor, the output terminal of described modulate circuit is connected with controller, input end and the output terminal of described controller are all connected with power circuit, reset circuit, key circuit, liquid crystal display, jtag circuit, warning circuit, serial port circuit, antenna, described controller is CC2430, and described flow sensor is turbine flow transducer.
2. a kind of Irrigation Ditch water quality monitoring system based on ZigBee according to claim 1, is characterized in that: described temperature sensor is WQ101.
3. a kind of Irrigation Ditch water quality monitoring system based on ZigBee according to claim 1, is characterized in that: described pH sensor is WQ201.
4. a kind of Irrigation Ditch water quality monitoring system based on ZigBee according to claim 1, is characterized in that: described dissolved oxygen sensor is WQ401.
5. a kind of Irrigation Ditch water quality monitoring system based on ZigBee according to claim 1, is characterized in that: described conductivity sensor is WQ301.
6. a kind of Irrigation Ditch water quality monitoring system based on ZigBee according to claim 1, is characterized in that: described turbidity transducer is WQ730.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201521067528.7U CN205210071U (en) | 2015-12-21 | 2015-12-21 | Ditch water quality monitoring system irrigates based on zigBee |
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CN201521067528.7U CN205210071U (en) | 2015-12-21 | 2015-12-21 | Ditch water quality monitoring system irrigates based on zigBee |
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CN205210071U true CN205210071U (en) | 2016-05-04 |
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CN201521067528.7U Expired - Fee Related CN205210071U (en) | 2015-12-21 | 2015-12-21 | Ditch water quality monitoring system irrigates based on zigBee |
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2015
- 2015-12-21 CN CN201521067528.7U patent/CN205210071U/en not_active Expired - Fee Related
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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: 20160504 Termination date: 20161221 |