CN207689465U - A kind of unmanned water quality monitor of solar energy based on NB-Iot - Google Patents

Abstract

The utility model is related to a kind of unmanned water quality monitors of the solar energy based on NB Iot, including processor, memory, power module, NB Iot communication modules, solar panels, battery, pH glass electrodes sensor, photodiode, Temperature Humidity Sensor.The utility model is simple and reliable for structure, fully automatic operation, the prolonged automatic work of system is realized by solar panels and battery, and on humiture, pH value and turbidity that processor is got uploaded onto the server using energy-efficient NB Iot communication modules, reduce the working strength of artificial acquisition water quality, the manpower and materials for greatly reducing water quality monitoring improve the efficiency of water quality monitoring.

Description

A kind of unmanned water quality monitor of solar energy based on NB-Iot

Technical field

The utility model is related to a kind of water quality monitor, the unmanned water quality monitoring of specifically a kind of solar energy based on NB-Iot Instrument belongs to water quality monitoring instrument technical field.

Background technology

With the continuous improvement of people's living standards, the continuous development of science and technology, requirement of the people to environment is continuously improved, and needs The real-time condition of environment is constantly accurately obtained, traditional mode is that the water at purpose water source is taken back laboratory to supervise It surveys, as the water quality monitor of gram hand-held occurs in development in science and technology, reduces the workload of water quality monitoring, but still cannot be real Existing completely automatic water quality monitoring, remoter place, manually carry out patrol monitoring or it is cumbersome and Inefficiency, thus need to invent it is a kind of it is full automatic, can be wirelessly transferred, can independently-powered operation water quality prison Survey instrument.

Invention content

The technical problems to be solved in the utility model is：There is provided it is a kind of it is full automatic, can it is independently-powered with run, have The water quality monitor of narrow bandwidth Internet of Things communication.

In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model is：A kind of sun based on NB-Iot The unmanned water quality monitor of energy, including processor, power module, solar panels, battery, memory, NB-Iot communication modules, pH glass Glass electrode sensor, photodiode, Temperature Humidity Sensor；The processor can acquire pH glass electrodes sensor, photosensitive The data that diode, Temperature Humidity Sensor are got, processor can be temporary by pH glass electrodes sensor, photosensitive two pole In memory, power module can manage solar panels and battery for the data storage that pipe, Temperature Humidity Sensor are got Charge and discharge, while managing to processor and NB-Iot communication modules, pH glass electrodes sensor, photodiode, humiture The power supply of sensor, the data that processor is got are sent to by NB-Iot communication modules on Cloud Server, and detector is logical Gas overcharging rubber ring floats on the surface, and is tied up to bank by draw ring.

The solar panels in the case of battery full electricity can directly pass through electric power source pair of module processor and NB-Iot Communication module, pH glass electrodes sensor, photodiode, Temperature Humidity Sensor are powered.

The battery is specially the lithium battery that can carry out charge and discharge.

The photodiode works as ring for monitoring of environmental illumination to allow processor to control the operating status of this monitor The LED light on detector is opened when border illumination is relatively low.

The Cloud Server is the terminal of data, can be forwarded the data in cell phone application and computer client.

The pH glass electrodes sensor is used to acquire the pH value of water quality.

The photodiode is mounted at the top of water quality testing meter.

The processor refers specifically to the MCU of 8-Bit.

The LED light is mounted on water quality testing meter surrounding.

The solar panels are mounted on the top of water quality testing meter.

Compared with prior art, the utility model has the advantages that：Solar panels are added, allow detector can be with Long-play in the wild, while NB-Iot technologies are used, allow the remote data that instrument can carry out low-power consumption to upload, pole The earth reduces the working strength of water quality detection personnel, improves the automatization level of water quality detection work.

Description of the drawings

Fig. 1 is the basic framework figure of this detector.

Fig. 2 is the volume structural schematic diagram of this detector.

In figure：1-processor, 2-power modules, 3-solar panels, 4-batteries, 5-memories, 6-NB-Iot are logical Module is interrogated, 7-pH glass electrode sensors, 8-photodiodes, 9-Temperature Humidity Sensors, 10-LED lights, 11-draw Ring, 12-aerated rubber loops.

Specific implementation mode

The utility model is described in further detail with reference to the accompanying drawings and detailed description.

As shown in Figure 1, a kind of unmanned water quality monitor of solar energy based on NB-Iot, including processor 1, power module 2, Solar panels 3, battery 4, memory 5, NB-Iot communication modules 6, pH glass electrodes sensor 7, photodiode 8, humiture Sensor 9, LED light 10；The processor 1 can acquire pH glass electrodes sensor 7, photodiode 8, humiture and pass The data that sensor 9 is got, processor 1 can be temporary by pH glass electrodes sensor 7, photodiode 8, temperature and humidity sensing In the memory 5, power module 2 can manage the charge and discharge of solar panels 3 and battery 4, together for the data storage that device 9 is got Shi Guanli is to processor 1 and NB-Iot communication modules 6, pH glass electrodes sensor 7, photodiode 8, Temperature Humidity Sensor 9 power supply, the data that processor 1 is got are sent on Cloud Server by NB-Iot communication modules 6 and detector is by filling Gas rubber ring 12 floats on the surface, and is tied up to bank by draw ring 11.

A kind of unmanned water quality monitor of solar energy based on NB-Iot, it is characterised in that：The solar panels 3 exist Directly processor 1 and NB-Iot communication modules 6, pH glass electrodes can be passed by power module 2 in the case of the full electricity of battery 4 Sensor 7, photodiode 8, Temperature Humidity Sensor 9 are powered.

A kind of unmanned water quality monitor of solar energy based on NB-Iot, it is characterised in that：The battery 4 is specially It can carry out the lithium battery of charge and discharge.

The photodiode 8 is used for monitoring of environmental illumination, to allow processor 1 to control the operating status of this monitor, when The LED light 10 on detector is opened when ambient lighting is relatively low.

The solar panels 3 are mounted on the top of water quality testing meter.

The Cloud Server is the terminal of data, can be forwarded the data in cell phone application and computer client.

The pH glass electrodes sensor 7 is used to acquire the pH value of water quality.

The photodiode 8 is mounted at the top of water quality testing meter.

The processor 1 refers specifically to the MCU of 8-Bit.

The LED light 10 makes testing staff dark in ambient lighting mounted on the purpose of water quality testing meter surrounding In the case of be easier to find water quality testing meter.

The pH glass electrodes sensor 7 is mounted on water quality testing meter bottom.

The draw ring 11 is rigid connection with detector main body.

When in use, it is only necessary to this detector is placed on the water surface, tied up on draw ring 11 using rope, and by other end system It on the arbitrary fixture in bank, or binds weight and is switched on by weight submerged, then by this detector, you can is full-automatic Operation, testing staff only need on APP or computer client various water that can be detected by real time inspection to detector Prime number evidence.

Above example only expresses several preferred embodiments of the utility model, the description thereof is more specific and detailed, It should be understood that the utility model is not limited to form disclosed herein, it is not to be taken as excluding other embodiments, and It can be used for other combinations, modifications, and environments, and above-mentioned introduction or phase can be passed through in this paper utility model contemplated scopes The technology or knowledge in pass field are modified, and therefore can not be interpreted as the limitation to the scope of the utility model.It should be understood that , for those of ordinary skill in the art, without departing from the concept of the premise utility, if can also make Dry modification and improvement, changes and modifications made by those skilled in the art do not depart from the spirit and scope of the utility model, these are all Belong to the protection domain of the appended claims for the utility model.Therefore, the protection domain of the utility model patent should be with appended power Subject to profit requires.

Claims (5)

1. a kind of unmanned water quality monitor of solar energy based on NB-Iot, including processor（1）, power module（2）, solar panels （3）, battery（4）, memory（5）, NB-Iot communication modules（6）, pH glass electrode sensors（7）, photodiode（8）, temperature Humidity sensor（9）, LED light（10）, draw ring（11）, aerated rubber loop（12）；The processor（1）PH glass can be acquired Glass electrode sensor（7）, photodiode（8）, Temperature Humidity Sensor（9）The data got, processor（1）It can be temporary By pH glass electrode sensors（7）, photodiode（8）, Temperature Humidity Sensor（9）The data got are stored in memory （5）In, power module（2）Solar panels can be managed（3）And battery（4）Charge and discharge, while manage to processor（1）With And NB-Iot communication modules（6）, pH glass electrode sensors（7）, photodiode（8）, Temperature Humidity Sensor（9）Power supply, Processor（1）The data got pass through NB-Iot communication modules（6）It is sent on Cloud Server, this detector is by inflating rubber Cushion rubber（12）It floats on the surface, and passes through draw ring（11）Tied up to bank.

2. the unmanned water quality monitor of a kind of solar energy based on NB-Iot according to claim 1, it is characterised in that：It is described Solar panels（3）In battery（4）It can directly pass through power module in the case of full electricity（2）To processor（1）And NB-Iot is logical Interrogate module（6）, pH glass electrode sensors（7）, photodiode（8）, Temperature Humidity Sensor（9）It is powered.

3. the unmanned water quality monitor of a kind of solar energy based on NB-Iot according to claim 1, it is characterised in that：It is described Battery（4）The lithium battery of charge and discharge can specially be carried out.

4. the unmanned water quality monitor of a kind of solar energy based on NB-Iot according to claim 1, it is characterised in that：It is described Photodiode（8）For monitoring of environmental illumination, to allow processor（1）The operating status for controlling this monitor, works as ambient lighting The LED light on detector is opened when relatively low（10）.

5. the unmanned water quality monitor of a kind of solar energy based on NB-Iot according to claim 1, it is characterised in that：It is described Solar panels（3）At the top of this detector.