CN202562526U - Underground water remote monitoring device - Google Patents

Abstract

The utility model provides an underground water remote monitoring device. The underground water remote monitoring device comprises a monitoring terminal and a client terminal which are used for transmitting / receiving monitoring data through wireless communication networks. The monitoring terminal comprises a solar power supply system, a sensor system and a data acquisition transmitting system, wherein the solar power supply system collects solar energy to provide power supply for the monitoring device, the sensor system is connected with the solar power supply system and is used for measuring various index data of underground water, the data acquisition transmitting system is respectively connected with the solar power supply system and the sensor system, acquires data through the sensor system and sends the monitoring data to the client terminal through wireless communication networks. The underground water remote monitoring device can be used monitoring groundwater levels, groundwater temperature, the potential of hydrogen (PH) value, electric conductivity, turbidity and the other indexes of groundwater in the long term and continuously, and transmits the monitoring data in a wireless remote mode. Compared with single underground water level monitoring, the underground water remote monitoring device is capable of acquiring more indexes, and particularly suitable for being used in fields of underground water dynamic monitoring, underground water pollution survey, salt tide intrusion monitoring and the like.

Description

The underground water remote monitoring device

Technical field

The utility model relates to underground hydrology field field of measuring technique, and specifically, the utility model relates to a kind of underground water remote monitoring device.

Background technology

Groundwater monitoring is an element task of departments such as water conservancy, environment, geology, traffic, agricultural.Carry out the monitoring of key elements such as groundwater level, water quality and water temperature, play an important role, China's economic development, people's lives are all had meaning at aspects such as the management of water resource, protection, utilizations.Though a lot of groundwater dynamic monitoring system is arranged at present, has most ofly just realized the dynamic monitoring to groundwater level, the i.e. dynamic monitoring of single index.

For comprehensive monitoring underground water more, will gather other information except water level, be badly in need of at present a kind of can the water index be carried out for a long time, the groundwater monitoring device of continuous monitoring to descending more.

Summary of the invention

The utility model technical matters to be solved provides a kind of underground water remote monitoring device, can be for a long time, index such as continuous monitoring underground water table, water temperature, pH, conductivity, dissolved oxygen DO and turbidity, and wireless remote transmission Monitoring Data.

For solving the problems of the technologies described above, the utility model provides a kind of underground water remote monitoring device, comprising:

Monitoring side and client, both are through wireless communication networks transmission/reception Monitoring Data;

Wherein, said monitoring side comprises:

Solar electric power supply system, collecting sun power is that said monitoring device provides electric power supply;

Sensing system is connected with said solar electric power supply system, measures phreatic various achievement data;

Data collection and transfering system is connected with said solar electric power supply system, said sensing system respectively, through said sensing system image data and through said wireless communication networks said Monitoring Data is sent to said client.

Alternatively, said solar electric power supply system comprises:

Solar panels are electric energy with conversion of solar energy;

Battery pack is stored said electric energy;

The solar-electricity pool controller; Be connected with said battery pack with said solar panels respectively; The power storage that said solar panels are transformed on said battery pack, and with after the electric power voltage stabilizing of said battery pack output to said sensing system and the power supply of said data collection and transfering system.

Alternatively, said sensing system comprises:

Level sensor is measured said phreatic water level;

Cooling-water temperature sensor is measured said phreatic water temperature;

The pH sensor is measured said phreatic pH value;

Conductivity sensor is measured said phreatic conductivity;

Dissolved oxygen sensor is measured said phreatic dissolved oxygen content;

Turbidity transducer is measured said phreatic turbidity.

Alternatively, said data collection and transfering system comprises:

Data acquisition module is connected with each sensor in the said sensing system, and the data-signal of gathering said each sensor forms Monitoring Data;

Wireless communication module is connected with said data acquisition module, by antenna said Monitoring Data is sent to said client via said wireless communication networks.

Compared with prior art, the utlity model has following advantage:

Indexs such as the utility model can be for a long time, continuous monitoring underground water table, water temperature, pH, conductivity, dissolved oxygen DO and turbidity, and wireless remote transmission Monitoring Data.The utility model can obtain more to many index than single water table measure, is particularly suitable for fields such as groundwater dynamic monitoring, groundwater contamination investigation, intrusion of tidal saltwater monitoring.

Description of drawings

The utility model above-mentioned and other characteristic, character and advantage will become more obvious through the description below in conjunction with accompanying drawing and embodiment, wherein:

Fig. 1 is the modular structure figure of the underground water remote monitoring device of an embodiment of the utility model.

Embodiment

Below in conjunction with specific embodiment and accompanying drawing the utility model is described further; Set forth more details in the following description so that make much of the utility model; But the utility model obviously can be implemented with the multiple alternate manner that is different from this description; Therefore those skilled in the art can do similar popularization, deduction according to practical situations under the situation of the utility model intension, should be with the protection domain of content constraints the utility model of this specific embodiment.

Fig. 1 is the modular structure figure of the underground water remote monitoring device of an embodiment of the utility model.This monitoring device 100 can be long-term, continuous indexs such as monitoring underground water table, water temperature, pH, conductivity, dissolved oxygen DO and turbidity, provide monitoring required electric power supply by sun power, and real time remote wireless transmission data.As shown in Figure 1, this underground water remote monitoring device 100 can comprise monitoring side 60 and client 50, and both are through wireless communication networks 40 transmission/reception Monitoring Data.Wherein, monitoring side 60 can comprise: solar electric power supply system 10, sensing system 20 and data collection and transfering system 30.

It is that monitoring device 100 provides electric power supply that solar electric power supply system 10 is collected sun power.This solar electric power supply system 10 specifically can comprise solar panels 11, solar-electricity pool controller 12 and battery pack 13.Wherein, solar panels 11 are electric energy with conversion of solar energy, battery pack 13 storage of electrical energy.Solar-electricity pool controller 12 is connected with battery pack 13 with solar panels 11 respectively; The power storage that is used for solar panels 11 are transformed is to battery pack 13, simultaneously with supplying power to sensing system 20 and data collection and transfering system 30 after the electric power voltage stabilizing of battery pack 13 outputs.

Sensing system 20 is connected with solar electric power supply system 10, measures phreatic various achievement data.This sensing system 20 specifically can comprise level sensor 21, cooling-water temperature sensor 22, pH sensor 23, conductivity sensor 24, dissolved oxygen sensor 25, turbidity transducer 26 and other sensors 27 etc.Wherein, level sensor 21 is used to measure phreatic water level; Cooling-water temperature sensor 22 is used to measure phreatic water temperature; PH sensor 23 is used to measure phreatic pH value; Conductivity sensor 24 is used to measure phreatic conductivity; Dissolved oxygen sensor 25 is used to measure phreatic dissolved oxygen content; Turbidity transducer 26 is used to measure phreatic turbidity; Other sensors 27 are used to measure phreatic other indexs.

Data collection and transfering system 30 is connected with solar electric power supply system 10, sensing system 20 respectively, through sensing system 20 image data and through wireless communication networks 40 Monitoring Data is sent to client 50.This data collection and transfering system 30 specifically comprises data acquisition module 31, wireless communication module 32 and antenna 33 etc.Wherein, data acquisition module 31 is connected with each sensor in the sensing system 20, and the data-signal that is used to gather each sensor forms Monitoring Data.Wireless communication module 32 is connected with data acquisition module 31, is used for by antenna 33 Monitoring Data being sent to client 50 via wireless communication networks 40.

Indexs such as the utility model can be for a long time, continuous monitoring underground water table, water temperature, pH, conductivity, dissolved oxygen DO and turbidity, and wireless remote transmission Monitoring Data.The utility model can obtain more to many index than single water table measure, is particularly suitable for fields such as groundwater dynamic monitoring, groundwater contamination investigation, intrusion of tidal saltwater monitoring.

Though the utility model with preferred embodiment openly as above, it is not to be used for limiting the utility model, and any those skilled in the art can make possible change and modification in spirit that does not break away from the utility model and scope.Therefore, every content that does not break away from the utility model technical scheme, all falls within the protection domain that the utility model claim defined any modification, equivalent variations and modification that above embodiment did according to the technical spirit of the utility model.

Claims (5)

1. a underground water remote monitoring device (100) is characterized in that, comprising:

Monitoring side (60) and client (50), both are through wireless communication networks (40) transmission/reception Monitoring Data;

Wherein, said monitoring side (60) comprising:

Solar electric power supply system (10), collecting sun power is that said monitoring device (100) provides electric power supply;

Sensing system (20) is connected with said solar electric power supply system (10), measures phreatic various achievement data;

Data collection and transfering system (30); Be connected with said solar electric power supply system (10), said sensing system (20) respectively, also said Monitoring Data sent to said client (50) through said wireless communication networks (40) through said sensing system (20) image data.

2. underground water remote monitoring device according to claim 1 (100) is characterized in that, said solar electric power supply system (10) comprising:

Solar panels (11) are electric energy with conversion of solar energy;

Battery pack (13) is stored said electric energy;

Solar-electricity pool controller (12); Be connected with said battery pack (13) with said solar panels (11) respectively; The power storage that said solar panels (11) are transformed arrives on the said battery pack (13), and with supplying power to said sensing system (20) and said data collection and transfering system (30) after the electric power voltage stabilizing of said battery pack (13) output.

3. underground water remote monitoring device according to claim 1 (100) is characterized in that, said sensing system (20) comprising:

Level sensor (21) is measured said phreatic water level;

Cooling-water temperature sensor (22) is measured said phreatic water temperature;

PH sensor (23) is measured said phreatic pH value;

Conductivity sensor (24) is measured said phreatic conductivity;

Dissolved oxygen sensor (25) is measured said phreatic dissolved oxygen content;

Turbidity transducer (26) is measured said phreatic turbidity.

4. according to each described underground water remote monitoring device (100) in the claim 1 to 3, it is characterized in that said data collection and transfering system (30) comprising:

Data acquisition module (31) is connected with each sensor in the said sensing system (20), and the data-signal of gathering said each sensor forms Monitoring Data;

Wireless communication module (32) is connected with said data acquisition module (31), by antenna (33) said Monitoring Data is sent to said client (50) via said wireless communication networks (40).

5. underground water remote monitoring device according to claim 4 (100) is characterized in that, said wireless communication networks (40) comprising: WIFI network, 2G network, 3G network, 4G network, LTE network and blueteeth network.

Images