CN204831372U - Water source remote monitoring system based on wireless transmission - Google Patents
Water source remote monitoring system based on wireless transmission Download PDFInfo
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- CN204831372U CN204831372U CN201520547544.XU CN201520547544U CN204831372U CN 204831372 U CN204831372 U CN 204831372U CN 201520547544 U CN201520547544 U CN 201520547544U CN 204831372 U CN204831372 U CN 204831372U
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Abstract
The utility model belongs to the technical field of the guardianship technique and specifically relates to a water source remote monitoring system based on wireless transmission. It includes level sensor, pH value sensor, dissolve oxygen sensor, conductivity sensor, temperature sensor, turbidity sensor, signal conditioning circuit, first control ware, zigBee emission module, zigBee receiving module, the second controllor, TC35i module, PC and cell -phone. The utility model discloses a level sensor, pH value sensor, dissolve oxygen sensor, conductivity sensor, temperature sensor and turbidity sensor realizes water source water quality monitoring, simultaneously, realize water source environment real -time supervision through the CCD camera, and, utilize zigBee emission module and zigBee receiving module to realize that the LAN of signal transmits, utilizes the TC35i module to realize GPS network and GSM network signal transmission.
Description
Technical field
The utility model relates to monitoring technology field, especially a kind of water source remote monitoring system based on wireless transmission.
Background technology
As everyone knows, the water environment that industrial pollution and disaster cause destroys the production and the domestic water safety that seriously threaten people.For this reason, water quality monitoring has become the important means being related to all trades and professions normal development.Current water quality monitoring manually to gather as many, but wireless sensor network with its wide coverage, ad-hoc network ability is strong, real-time good, feature such as application portable etc. detects for water body digitizing, robotization, intellectuality provide advantage.
Utility model content
For above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide a kind of water source remote monitoring system based on wireless transmission.
To achieve these goals, the utility model adopts following technical scheme:
Based on a water source remote monitoring system for wireless transmission, it comprises level sensor, pH value sensor, dissolved oxygen sensor, conductivity sensor, temperature sensor, turbidity transducer, signal conditioning circuit, the first controller, ZigBee transmitter module, ZigBee receiver module, second controller, TC35i module, PC and mobile phone;
Described level sensor, pH value sensor, dissolved oxygen sensor, conductivity sensor, the water level signal at temperature sensor and turbidity transducer monitoring water source, pH value signal, dissolved oxygen DO signal, conductivity signal, signal is also inputed to signal conditioning circuit by temperature signal and turbid ity signal, signal carries out nursing one's health and signal is inputed to the first controller by described signal conditioning circuit, signal carries out arranging and by signal feedback to ZigBee transmitter module by described first controller, signal is sent to ZigBee receiver module by LAN (Local Area Network) by described ZigBee transmitter module, signal is also inputed to second controller by described ZigBee receiver module Received signal strength, signal arranges and by signal feedback to TC35i module by described second controller again, signal is sent to PC and mobile phone by GPS network network and GSM network by described TC35i module.
Preferably, it also comprises several CCD cameras, and signal is also inputed to signal conditioning circuit by described CCD camera Real-Time Monitoring water source vision signal.
Preferably, described signal conditioning circuit comprises the first amplifier, second amplifier, first adjustable resistance and the second adjustable resistance, the in-phase end of described first amplifier is by the second resistance and level sensor, pH value sensor, dissolved oxygen sensor, conductivity sensor, temperature sensor, turbidity transducer is connected with ccd video camera, the end of oppisite phase of described first amplifier is by the 3rd resistance eutral grounding, described first adjustable resistance is parallel to end of oppisite phase and the output terminal of the first amplifier, the output terminal of described first amplifier is connected with the in-phase end of the second amplifier by the 4th resistance, the in-phase end of described second amplifier is by the 5th resistance eutral grounding, the end of oppisite phase of described second amplifier is connected with the adjustable end of the second adjustable resistance by the 6th resistance, the end of oppisite phase of described second computing is connected with the output terminal of self by the 7th resistance, the output terminal of described second amplifier is connected with the first controller and passes through the first electric capacity and the first diode ground connection.
Owing to have employed such scheme, the utility model realizes source quality monitoring by level sensor, pH value sensor, dissolved oxygen sensor, conductivity sensor, temperature sensor and turbidity transducer; Meanwhile, water source environment Real-Time Monitoring is realized by CCD camera; Further, utilize ZigBee transmitter module and ZigBee receiver module to realize the local network transport of signal, utilize TC35i module to realize GPS network network and GSM network Signal transmissions.
Accompanying drawing explanation
Fig. 1 is the structural principle schematic diagram of the utility model embodiment;
Fig. 2 is the structural representation of the signal conditioning circuit of the utility model embodiment.
Embodiment
Below in conjunction with accompanying drawing, embodiment of the present utility model is described in detail, but the multitude of different ways that the utility model can be defined by the claims and cover is implemented.
As shown in Figure 1, a kind of water source remote monitoring system based on wireless transmission that the present embodiment provides, it comprises level sensor 1, pH value sensor 2, dissolved oxygen sensor 3, conductivity sensor 4, temperature sensor 5, turbidity transducer 6, signal conditioning circuit 8, first controller 9, ZigBee transmitter module 10, ZigBee receiver module 11, second controller 12, TC35i module 13, PC 14 and mobile phone 15;
Level sensor 1, pH value sensor 2, dissolved oxygen sensor 3, conductivity sensor 4, temperature sensor 5 and turbidity transducer 6 monitor the water level signal at water source, pH value signal, dissolved oxygen DO signal, conductivity signal, signal is also inputed to signal conditioning circuit 8 by temperature signal and turbid ity signal, signal carries out nursing one's health and signal is inputed to the first controller 9 by signal conditioning circuit 8, signal carries out arranging and by signal feedback to ZigBee transmitter module 10 by the first controller 9, signal is sent to ZigBee receiver module 11 by LAN (Local Area Network) by ZigBee transmitter module 10, signal is also inputed to second controller 12 by ZigBee receiver module 11 Received signal strength, signal arranges and by signal feedback to TC35i module 13 by second controller 12 again, signal is sent to PC 14 and mobile phone 15 by GPS network network and GSM network by TC35i module 13.
Further, it also comprises several CCD camera 7, CCD camera 7 Real-Time Monitoring water source vision signals and signal is inputed to signal conditioning circuit 8.
The present embodiment is by level sensor 1, pH value sensor 2, dissolved oxygen sensor 3, conductivity sensor 4, temperature sensor 5 and turbidity transducer 6 realize source quality monitoring, and utilize CCD camera 7 Real-Time Monitoring water source environment video, facilitate monitor and managment, its signal detected all carries out signal condition by signal conditioning circuit 8, signal after conditioning is then arranged by the first controller 9, signal after arrangement utilizes ZigBee transmitter module 10 and ZigBee receiver module 11 to realize the local network transport of signal, signal after local network transport utilizes TC35i module 13 to realize the GPS network network of signal and the transmission of GSM network after again being arranged by second controller 12.
The signal conditioning circuit 8 of the present embodiment can adopt circuit structure as shown in Figure 2, namely the first amplifier A1 is comprised, second amplifier A2, first adjustable resistance RX and the second adjustable resistance RX, the in-phase end of the first amplifier A1 is by the second resistance R2 and level sensor 1, pH value sensor 2, dissolved oxygen sensor 3, conductivity sensor 4, temperature sensor 5, turbidity transducer 6 is connected with ccd video camera 7, the end of oppisite phase of the first amplifier A1 is by the 3rd resistance R3 ground connection, first adjustable resistance RX is parallel to end of oppisite phase and the output terminal of the first amplifier A1, the output terminal of the first amplifier A1 is connected with the in-phase end of the second amplifier A2 by the 4th resistance R4, the in-phase end of the second amplifier A2 is by the 5th resistance R5 ground connection, the end of oppisite phase of the second amplifier A2 is connected with the adjustable end of the second adjustable resistance RX by the 6th resistance R6, the end of oppisite phase of the second computing A2 is connected with the output terminal of self by the 7th resistance R7, the output terminal of the second amplifier A2 is connected with the first controller 9 and by the first electric capacity C1 and the first diode D1 ground connection.
The foregoing is only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model instructions and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.
Claims (3)
1. based on a water source remote monitoring system for wireless transmission, it is characterized in that: it comprises level sensor, pH value sensor, dissolved oxygen sensor, conductivity sensor, temperature sensor, turbidity transducer, signal conditioning circuit, the first controller, ZigBee transmitter module, ZigBee receiver module, second controller, TC35i module, PC and mobile phone;
Described level sensor, pH value sensor, dissolved oxygen sensor, conductivity sensor, the water level signal at temperature sensor and turbidity transducer monitoring water source, pH value signal, dissolved oxygen DO signal, conductivity signal, signal is also inputed to signal conditioning circuit by temperature signal and turbid ity signal, signal carries out nursing one's health and signal is inputed to the first controller by described signal conditioning circuit, signal carries out arranging and by signal feedback to ZigBee transmitter module by described first controller, signal is sent to ZigBee receiver module by LAN (Local Area Network) by described ZigBee transmitter module, signal is also inputed to second controller by described ZigBee receiver module Received signal strength, signal arranges and by signal feedback to TC35i module by described second controller again, signal is sent to PC and mobile phone by GPS network network and GSM network by described TC35i module.
2. a kind of water source remote monitoring system based on wireless transmission as claimed in claim 1, it is characterized in that: it also comprises several CCD cameras, signal is also inputed to signal conditioning circuit by described CCD camera Real-Time Monitoring water source vision signal.
3. a kind of water source remote monitoring system based on wireless transmission as claimed in claim 2, it is characterized in that: described signal conditioning circuit comprises the first amplifier, second amplifier, first adjustable resistance and the second adjustable resistance, the in-phase end of described first amplifier is by the second resistance and level sensor, pH value sensor, dissolved oxygen sensor, conductivity sensor, temperature sensor, turbidity transducer is connected with ccd video camera, the end of oppisite phase of described first amplifier is by the 3rd resistance eutral grounding, described first adjustable resistance is parallel to end of oppisite phase and the output terminal of the first amplifier, the output terminal of described first amplifier is connected with the in-phase end of the second amplifier by the 4th resistance, the in-phase end of described second amplifier is by the 5th resistance eutral grounding, the end of oppisite phase of described second amplifier is connected with the adjustable end of the second adjustable resistance by the 6th resistance, the end of oppisite phase of described second computing is connected with the output terminal of self by the 7th resistance, the output terminal of described second amplifier is connected with the first controller and passes through the first electric capacity and the first diode ground connection.
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CN201520547544.XU CN204831372U (en) | 2015-07-27 | 2015-07-27 | Water source remote monitoring system based on wireless transmission |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107632127A (en) * | 2017-08-29 | 2018-01-26 | 北京煜煌科技有限公司 | A kind of water quality remote on-line detecting system for hydraulic engineering |
CN107748238A (en) * | 2017-10-16 | 2018-03-02 | 青岛联合智造科技有限公司 | A kind of hydraulic engineering monitor terminal based on multi-sensor technology |
CN110376100A (en) * | 2019-07-30 | 2019-10-25 | 浙江省肿瘤医院 | A kind of solid lipid nano granule control release performance test macro |
-
2015
- 2015-07-27 CN CN201520547544.XU patent/CN204831372U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107632127A (en) * | 2017-08-29 | 2018-01-26 | 北京煜煌科技有限公司 | A kind of water quality remote on-line detecting system for hydraulic engineering |
CN107748238A (en) * | 2017-10-16 | 2018-03-02 | 青岛联合智造科技有限公司 | A kind of hydraulic engineering monitor terminal based on multi-sensor technology |
CN110376100A (en) * | 2019-07-30 | 2019-10-25 | 浙江省肿瘤医院 | A kind of solid lipid nano granule control release performance test macro |
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Address after: 516000 Huizhou, Huicheng, Guangdong, Jiangbei 14 District, Huizhou, Xinhe Building 1, 12 floor, 03 room. Patentee after: Guangdong original technology Co., Ltd. Address before: 516000 Huizhou, Huicheng, Guangdong, Jiangbei 14 District, Huizhou, Xinhe Building 1, 12 floor, 03 room. Patentee before: Guangdong Original-create Communication Consultation & Design Co.,Ltd. |
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