CN211668571U - Water quality sensing monitoring system based on Internet of things - Google Patents

Abstract

The utility model provides a water quality sensing monitoring system based on thing networking relates to water quality monitoring technical field. The water quality sensing and monitoring system comprises a water quality monitoring device, a wireless transmission assembly and a data processing terminal; the water quality monitoring device comprises a buoy and a water quality sensor arranged at the lower part of the buoy; the buoy is sleeved with a rubber retainer; the wireless transmission assembly can adopt a narrow-band Internet of things or GPRS to carry out wireless data transmission. The water quality monitoring device transmits the collected water quality parameter data to the data processing terminal through the wireless transmission assembly. The water quality sensing monitoring system can realize remote monitoring, has simple equipment and is easy to maintain, so that the whole water quality monitoring system has more effectiveness and more intellectualization, thereby having good value of practical application.

Description

Water quality sensing monitoring system based on Internet of things

Technical Field

The utility model relates to a water quality monitoring technology field especially relates to a water quality sensing monitoring system based on thing networking.

Background

The information disclosed in the background of the invention is only for enhancement of understanding of the general background of the invention and is not necessarily to be construed as an admission or any form of suggestion that this information constitutes prior art that is already known to a person of ordinary skill in the art.

The water quality monitoring means that the quality of water is determined by measuring indexes reflecting the quality of water quality. At present, along with the continuous progress of urban construction, urban pollution is more and more serious, and water sources such as lakes around cities are inevitably polluted. In order to reduce the pollution to the surrounding lake water sources, it is imperative to increase the monitoring strength to the water quality. When monitoring the quality of water, the staff is required to bring a special monitor to a monitoring place for monitoring.

However, the inventor finds that the monitoring site is usually located in the field, for example, a monitoring station is arranged at the monitoring site, and although the water quality monitoring of the area can be realized, the monitoring station is relatively large in investment, so that the monitoring range is limited. If a mode of manually taking back the water sample and then detecting the water sample is adopted, time is wasted, meanwhile, the monitored water quality change is difficult to report in time, and the optimal early warning opportunity is easily missed. Resulting in a decrease in monitoring timeliness. With the development of electronic technology, water quality is gradually detected by adopting an in-situ water quality sensor, but the water quality is generally incapable of being remotely monitored, easy to damage, and high in cost and maintenance cost, so that the further application of the water quality sensor in water quality monitoring is hindered.

SUMMERY OF THE UTILITY MODEL

To foretell problem, the utility model provides a quality of water sensing monitoring system based on thing networking. The water quality sensing monitoring system can realize remote monitoring, has simple equipment and is easy to maintain, so that the whole water quality monitoring system has more effectiveness and more intellectualization, thereby having good value of practical application.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a water quality sensing monitoring system based on the Internet of things comprises a water quality monitoring device, a wireless transmission assembly and a data processing terminal; the water quality monitoring device transmits the collected water quality parameter data to the data processing terminal through the wireless transmission assembly.

The water quality monitoring device comprises a buoy and a water quality sensor arranged at the lower part of the buoy;

the water quality sensor is a multi-parameter water quality sensor, and the water quality parameters comprise at least one of pH, water depth (water level), temperature, conductivity, oxidation-reduction potential (ORP) and Dissolved Oxygen (DO);

the water quality monitoring device also comprises a camera device which is arranged on the upper part of the buoy and used for acquiring a monitoring image, and the camera device is preferably a miniature waterproof camera device.

The water quality monitoring device also comprises a solar battery which is arranged on the upper part of the buoy and provides electric power support for the electricity-requiring equipment (such as a water quality sensor and a camera device) so as to prolong the service time of the equipment; the solar cell is a thin-film solar cell or a crystalline silicon solar cell.

The water quality monitoring device also comprises an anchor, and the anchor is connected with the buoy through an anchor rope.

The buoy is sleeved with a rubber guard ring, and the arrangement of the rubber guard ring is favorable for improving the anticollision performance of the water quality monitoring device and reducing the damage of the device caused by accidental collision; and the buoyancy effect of the water quality monitoring device is further improved.

The wireless transmission assembly adopts a narrow-band Internet of things or GPRS to carry out wireless data transmission.

The data processing terminal comprises a data acquisition control unit, an intelligent data acquisition unit, a data storage unit and a data monitoring unit, and can be a common desktop computer, and the functions of the data acquisition control unit, the intelligent data acquisition unit, the data storage unit and the data monitoring unit are realized through a CPU and a memory in the computer.

The data processing terminal further comprises an alarm, the alarm is connected with the desktop computer, and the desktop computer receives data analysis and early warning results from data processing, performs unified arrangement and processing on the data analysis and early warning results, and sends the early warning results to the alarm to give an alarm.

Compared with the prior art, the utility model discloses the beneficial effect in several aspects below having at least:

the utility model provides a quality of water sensing monitoring system based on thing networking for the first time, quality of water sensing monitoring system includes water quality monitoring device, wireless transmission subassembly and data processing terminal, can effectively realize remote monitoring, simultaneously through the improvement to water quality monitoring device for monitoring device is more simple and easy, and easy to maintain, makes whole water quality monitoring system have more actual effect, and is more intelligent, consequently has good practical application's value.

Drawings

The accompanying drawings, which form a part of the specification, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without unduly limiting the scope of the invention.

Fig. 1 is the utility model discloses in the embodiment of a sewage treatment system's that has intelligent monitoring function structural schematic.

Fig. 2 is the embodiment of the utility model provides an embodiment has intelligent monitoring function's sewage treatment system's schematic structure diagram.

The reference numerals in the drawings denote: 100-water quality monitoring device, 200-wireless transmission component, 300-data processing terminal, 101-buoy, 102-water quality sensor, 103-camera device, 104-mounting rack, 105-solar cell, 106-rubber retainer, 107-anchor, 108-anchor rope.

Detailed Description

It should be noted that the following detailed description is exemplary and is intended to provide further explanation of the invention. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments in accordance with the invention. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

For convenience of description, the words "upper", "lower", "left" and "right" in the present application, if any, merely indicate that the device or element referred to in the present application is constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention, since they are merely intended to be oriented in the upper, lower, left and right directions of the drawings themselves, and not to limit the structure, but merely to facilitate the description of the invention and to simplify the description.

Term interpretation section: the terms "mounted," "connected," "fixed," and the like in the present invention are to be understood in a broad sense, for example, they may be fixedly connected, detachably connected, or integrated; the two components can be connected mechanically or electrically, directly or indirectly through an intermediate medium, or connected internally or in an interaction relationship, and specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

As mentioned above, in-situ water quality sensors are gradually used to detect water quality, but the sensors are generally unable to be remotely monitored, are easy to be damaged, and have high cost and maintenance cost, which hinders further application of the sensors in water quality monitoring.

In view of this, the utility model provides a quality of water sensing monitoring system based on thing networking. The water quality sensing monitoring system can realize remote monitoring, and meanwhile, the equipment is simple and easy to maintain, so that the whole water quality monitoring system is more effective and more intelligent; the invention will now be further described with reference to the drawings and the detailed description.

Referring to fig. 1 and 2, a water quality sensing monitoring system based on the internet of things comprises a water quality monitoring device 100, a wireless transmission assembly 200 and a data processing terminal 300; the water quality monitoring device 100 transmits the collected water quality parameter data to the data processing terminal 300 through the wireless transmission component 200, and the data are integrated and processed.

The water quality monitoring device comprises a buoy 101 and a water quality sensor 102 arranged at the lower part of the buoy 101; the buoy can be made of rubber, plastic, wood and the like, and only the effect of floating on water is achieved; the shape of the float is also not particularly limited, and may be a rectangular parallelepiped, a cylindrical structure, or the like. In actual use, the water quality sensor is arranged at the lower part of the buoy, so that the buoy is immersed in water for a long time, the water quality sensor 102 is a multi-parameter water quality sensor, and the water quality parameters comprise at least one of pH, water depth (water level), temperature, conductivity, oxidation-reduction potential (ORP) and Dissolved Oxygen (DO); the existing water quality sensors have a plurality of products, which are not specifically limited herein, and a multi-parameter water quality sensor with an anti-fouling self-cleaning function, such as an MPS-400 online multi-parameter self-cleaning sensor, can be preferably used.

The water quality monitoring device 100 further comprises a camera device 103 arranged on the upper part of the buoy 101, wherein the camera device 103 is preferably a miniature waterproof camera device; the camera device 103 can shoot the field water sample environment at regular time, or send an instruction to the data processing terminal 300 to shoot, and transmit the picture and the image to the data processing terminal 300 through the wireless transmission component 200.

The water quality monitoring device 100 further comprises a solar cell 105, wherein the solar cell 105 is arranged on the upper part of the buoy 101, and provides electric power support for electric equipment (such as a water quality sensor and a camera device) so as to prolong the service life of the equipment; the solar cell 105 may be a thin film solar cell or a crystalline silicon solar cell;

in some implementations, to provide a tilt angle for the solar cells 105 for better sunlight acceptance, the solar cells are mounted on a mounting frame 104 having a tilt angle that can be determined based on the latitude of the installation site. Of course, the solar cell 105 may be directly horizontally fixed to the upper portion of the buoy 101.

In some implementations, the water quality monitoring device further includes an anchor 107, and the anchor 107 is connected to the buoy 101 through an anchor line 108. The anchor 108 may be made of iron or other metal material having a density greater than that of water, and the anchor 107 may be rectangular, cylindrical or other regular shape, or may be irregular shape, which is not limited herein.

In some implementations, the anchor rope 107 may be made of nylon, cotton fiber or metal rope, and when in use, the anchor 107 is sunk into the water bottom, and the water quality monitoring device 100 is positioned by pulling the anchor rope 107, so as to prevent the water quality monitoring device from floating.

In some implementations, the buoy 101 is sleeved with a rubber retainer 106, and the rubber retainer 106 helps to improve the anti-collision performance of the water quality monitoring device, reduce the damage of the device due to accidental collision, and increase the buoyancy of the water quality detection device.

In some implementations, the wireless transmission component 200 can employ narrowband internet of things or GPRS for wireless data transfer. Preferably, a narrow-band internet of things (NB-IOT) communication mode is used to support cellular data connection of low-power devices in a wide area network (wan), which is also called a low-power wide area network (LPWAN). The NB-IOT supports efficient connection of devices with long standby time and high requirements for network connection, and the NB-IOT module has ultra-low power consumption, is very suitable for being applied to low-power-consumption products, and can provide very comprehensive cellular data connection coverage.

In some implementations, the data processing terminal includes a data acquisition control unit, an intelligent data acquisition unit, a data storage unit, and a data monitoring unit, which may be a common desktop computer, and the functions of the data acquisition control unit, the intelligent data acquisition unit, the data storage unit, and the data monitoring unit are implemented by a CPU and a memory in the computer.

In some implementations, the data processing terminal further includes an alarm, the alarm is connected with the desktop computer, and the desktop computer receives data analysis and early warning results from each data processing, performs unified arrangement and processing on the data analysis and early warning results, and sends the early warning results to the alarm to give an alarm.

In some implementations, the alarm may be an audible alarm or may also be a light alarm, such as a buzzer or an LED light.

It will be understood by those skilled in the art that the related modules and the functions implemented by the related modules in the present invention are implemented by carrying computer software programs or related protocols which are conventional in the art on the modified hardware and the apparatuses, devices or systems formed by the hardware and the devices, devices or systems, and are not modified in the prior art. For example, the improved computer hardware system can still realize the specific functions of the hardware system by loading the existing software operating system. Therefore, it can be understood that the innovation of the present invention lies in the connection combination relationship of the hardware modules/units in the prior art, not only the specific structure of the hardware modules/units, but also the improvement of the software or protocol installed in the hardware modules for realizing the related functions.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A water quality sensing monitoring system based on the Internet of things is characterized by comprising a water quality monitoring device, a wireless transmission assembly and a data processing terminal; the water quality monitoring device transmits the collected water quality parameter data to the data processing terminal through the wireless transmission assembly;

the water quality monitoring device comprises a buoy and a water quality sensor arranged at the lower part of the buoy;

the buoy is sleeved with a rubber retainer;

the wireless transmission assembly adopts a narrow-band Internet of things or GPRS to carry out wireless data transmission.

2. The internet of things-based water quality sensing and monitoring system as claimed in claim 1, wherein the water quality monitoring device further comprises a camera device arranged on the upper part of the buoy and used for acquiring monitoring images.

3. The Internet of things-based water quality sensing and monitoring system according to claim 2, wherein the camera device is a miniature waterproof camera device.

4. The internet of things-based water quality sensing and monitoring system of claim 1, wherein the water quality parameter comprises at least one of pH, water depth, temperature, conductivity, oxidation-reduction potential, and dissolved oxygen.

5. The internet of things-based water quality sensing and monitoring system as claimed in claim 1, wherein the water quality monitoring device further comprises a solar battery, and the solar battery is arranged on the upper part of the buoy.

6. The Internet of things-based water quality sensing and monitoring system of claim 5, wherein the solar cell is a thin film solar cell or a crystalline silicon solar cell.

7. The internet of things-based water quality sensing and monitoring system of claim 1, wherein the water quality monitoring device further comprises an anchor, and the anchor is connected with the buoy through an anchor rope.

8. The internet of things-based water quality sensing monitoring system of claim 1, wherein the data processing terminal comprises a desktop computer.

9. The water quality sensing and monitoring system based on the Internet of things of claim 1, wherein the data processing terminal further comprises an alarm, and the alarm is connected with a desktop computer.

10. The water quality sensing and monitoring system based on the internet of things according to claim 9, wherein the alarm is a sound alarm or a light alarm.

Images