CN105955167A - Intelligent water quality monitoring system - Google Patents

Abstract

The invention relates to an intelligent water quality monitoring system comprising monitoring terminals, a cloud server and an operating terminal. The multiple monitoring terminals are in communication connection with the cloud server by a gateway device; and the cloud server is connected with the operating terminal by a wired or wireless network. Each monitoring terminal is installed on one water quality purifying device and is used for collecting water quality data of the water quality purifying device and controlling operation of all mechanisms of the water quality purifying device. The cloud server is used for collecting the water quality data of all water quality purifying devices by the multiple monitoring terminals and storing the data. The operating terminal is used for reading the water quality data, stored in the cloud server, of the water quality purifying devices and carrying out an analysis and displaying. The monitoring terminals consist of e first water quality sensors, second water quality sensors, control modules and wireless communication modules. The operating terminal includes a first water quality state analysis module, a second water quality state analysis module and a water quality contrast analysis module.

Description

Intelligent water quality monitoring system

Technical Field

The invention relates to the technical field of intelligent hardware, in particular to an intelligent water quality monitoring system.

Background

With the development of science and technology and the improvement of living standard of people, the requirements of people on the convenience and the rapidness of living environment are higher and higher, and the intelligent home system is produced at the same time. The intelligent home system is a product combining modern electronic technology, communication technology and automation technology, can realize automatic control and management of household appliances and monitor and alarm on the safety of families, and can provide a safe, comfortable, efficient and convenient living environment for users.

Water is the basis on which people rely for survival and is an important natural resource in the world. With the increasing serious water pollution, a large amount of organic matters and heavy metal substances enter a water source in different ways, and the drinking water source is seriously polluted. In recent years, the toxic and disease caused by drinking water source pollution is endless, such as the pollution of the purple gold mining, which seriously affects the drinking water and agricultural production of local residents, and the 'chromium residue pollution event' in the city of qujing, Yunnan province, which is disputed in recent years, is more and more concerned about the safety of drinking water, so that people are more and more conscious of drinking water health, and the requirement for improving water quality is more and more urgent. In such market environments, water quality purification equipment is also in increasing demand. As the application field of water purification equipment is expanding, professional manufacturers of water purification equipment are also confronted with problems such as ensuring quality of purified water and improving after-sales maintenance of water purification equipment while enjoying the benefits of such growth.

In the process of equipment operation, water quality purification equipment manufacturing enterprises have strong monitoring requirements on the state information of the equipment. However, in China, because the intelligent technology starts late, the operation management of the traditional water quality purification equipment depends on manual patrol and telephone inquiry, the work is not only large in investment, but also poor in effect, and especially for some sudden faults, the normal operation of the water quality purification equipment is influenced because information cannot be fed back in time, and further the life and the production of a user are influenced. In order to improve the management level of the operation of the water quality purification equipment and better meet the requirements of people on production and life, it is necessary to continuously monitor the parameters of the water quality purification equipment system, such as temperature and humidity, the inlet and outlet pressure of a filter, the conductivity, the pH value and the like, for 24 hours so as to enable the water quality purification equipment system to be in an orderly and controllable state.

At present, some intelligent water quality purification equipment systems use a wired technology to monitor the operation parameters of water quality purification equipment, but are limited by wired distance, lack of remote monitoring of the operation parameters of the water quality purification equipment system through the internet, and cannot realize remote inquiry to solve the problem of man-machine separation, especially cannot be connected with central data and a control center, and lack of a synergistic means for forecasting and diagnosing various fault problems encountered during the operation of the water quality purification equipment.

Disclosure of Invention

The invention aims to solve the technical problem of providing an intelligent water quality monitoring system aiming at the defects in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the intelligent water quality monitoring system is constructed and comprises monitoring terminals, a cloud server and operation terminals, wherein the monitoring terminals are in communication connection with the cloud server through gateway equipment, and the cloud server is connected with the operation terminals through a wired or wireless network; each monitoring terminal is installed on one water quality purification device and is used for collecting water quality data of the water quality purification device and controlling the operation of each mechanism of the water quality purification device; the cloud server is used for acquiring and storing water quality data of the water quality purification equipment through the monitoring terminals; the operation terminal is used for reading the water quality data of the water quality purification equipment stored in the cloud server, and analyzing and displaying the water quality data; the monitoring terminal comprises a first water quality sensor, a second water quality sensor, a control module and a wireless communication module which are sequentially connected; wherein,

the first water quality sensor is used for collecting water quality data before being purified by the water quality purifying equipment;

the second water quality sensor is used for collecting water quality data purified by the water quality purification equipment;

the control module is used for controlling the operation of each mechanism of the water quality purification equipment and transmitting the water quality data obtained by the water quality sensor to the wireless communication module;

the wireless communication module is connected to the cloud server through gateway equipment and used for uploading water quality data to the cloud server;

the operation terminal comprises a first water quality state analysis module, a second water quality state analysis module and a water quality comparison analysis module;

the first water quality state analysis module is used for analyzing the water quality data before being purified by the water quality purification equipment;

the second water quality state analysis module is used for analyzing the water quality data purified by the water quality purification equipment;

and the water quality comparison and analysis module is used for comparing and analyzing the water quality data before being purified by the water quality purification equipment and the water quality data after being purified by the water quality purification equipment.

The intelligent water quality monitoring system comprises an operation terminal and a multi-point analysis module, wherein the operation terminal is used for carrying out contrastive analysis on water quality data detected by a plurality of first water quality sensors or carrying out contrastive analysis on water quality data detected by a plurality of second water quality sensors.

The intelligent water quality monitoring system comprises an operation terminal and a water quality monitoring system, wherein the operation terminal is provided with at least one display screen.

The intelligent water quality monitoring system is characterized in that the operation terminal is provided with a voice input device.

The intelligent water quality monitoring system comprises a first water quality sensor, a second water quality sensor, a water pressure sensor, a conductivity sensor and a pH value sensor.

The intelligent water quality monitoring system is characterized in that the operation terminal is also used for sending a control instruction for controlling the water quality purifying equipment to the cloud server, and the cloud server sends the control instruction to the monitoring terminal through the gateway equipment; and after the control module in the monitoring terminal receives the control instruction through the wireless communication module, the control module adjusts the running state of each mechanism in the water quality purification equipment according to the control instruction.

The intelligent water quality monitoring system of the invention, wherein, the operation terminal also includes: and an alarm information sending/receiving module.

The intelligent water quality monitoring system is characterized in that the operation terminal is an intelligent mobile terminal or a manufacturer server.

According to the intelligent water quality monitoring system, the alarm module is arranged in the cloud server and used for analyzing the water quality data collected by each monitoring terminal, and when the water quality data is abnormal, alarm information is sent to the operation terminal.

The intelligent water quality monitoring system is characterized in that the control module is provided with a control panel for inputting a local control instruction to locally control the water quality purifying equipment.

The invention has the beneficial effects that: various operation parameters of the water quality purification system are transmitted to a cloud server by fully utilizing a wireless technology, and a multi-platform (PC, tablet and smart phone) water quality purification equipment real-time monitoring system is constructed by relying on data transmission, storage and analysis technologies under a cloud architecture. The system manager can comprehensively, accurately and real-timely acquire the state information of the water quality purification equipment at any time and any place without leaving home and realize remote operation of the water quality purification equipment. Meanwhile, based on the real-time information acquisition and remote control capability of the system, automatic alarming and prompting can be realized under the unattended condition, the fault position can be positioned in time, the fault reason can be analyzed through historical data, finally, the time is saved for a water quality purification equipment manager and an after-sale service provider, the workload is reduced, the efficiency and the automation level are improved, the water safety can be obviously improved, and the water quality at every moment is ensured to reach the standard.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

fig. 1 is a schematic block diagram of an intelligent water quality monitoring system according to a preferred embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

A schematic block diagram of an intelligent water quality monitoring system according to a preferred embodiment of the present invention is shown in fig. 1, and includes monitoring terminals 20, a cloud server 10, and an operation terminal 30, where a plurality of monitoring terminals 20 are in communication connection with the cloud server 10 through gateway devices, and the cloud server 10 is connected with the operation terminal 30 through a wired or wireless network; each monitoring terminal 20 is installed on one water quality purification device and is used for collecting water quality data of the water quality purification device and controlling the operation of each mechanism of the water quality purification device; the cloud server 10 is used for acquiring and storing water quality data of a plurality of water quality purification devices through a plurality of monitoring terminals 20; the operation terminal 30 is used for reading the water quality data of the plurality of water quality purification devices stored in the cloud server 10, and analyzing and displaying the water quality data; the monitoring terminal 20 comprises a first water quality sensor 21, a second water quality sensor 22, a control module 23 and a wireless communication module which are connected in sequence; the first water quality sensor 21 is used for collecting water quality data before being purified by the water quality purifying equipment; the second water quality sensor 22 is used for collecting water quality data purified by the water quality purification equipment; the control module 23 is used for controlling the operation of each mechanism of the water quality purification equipment and transmitting the water quality data obtained by the water quality sensor to the wireless communication module; the wireless communication module is connected to the cloud server 10 through gateway equipment and is used for uploading water quality data to the cloud server 10; the operation terminal 30 comprises a first water quality state analysis module 31, a second water quality state analysis module 32 and a water quality comparison analysis module 33; the first water quality state analysis module 31 is used for analyzing the water quality data before being purified by the water quality purification equipment; the second water quality state analysis module 32 is used for analyzing the water quality data purified by the water quality purification equipment; and the water quality comparison and analysis module 33 is used for comparing and analyzing the water quality data before being purified by the water quality purification equipment and the water quality data after being purified by the water quality purification equipment.

In the above embodiment, the monitoring terminal 20 can realize comprehensive monitoring and control of the water quality purification device, and the main control program in the monitoring terminal 20 is a key for realizing core links of data encryption, identity authentication, information privatization, field control, and the like in this embodiment.

The gateway device is a hub for data link between the water quality purification device and the cloud server 10, and the multi-communication protocol conversion and cooperation involved in the gateway device are important research contents. The cloud server 10 is used for acquiring and storing water quality data of a plurality of water quality purification devices through a plurality of monitoring terminals 20; the cloud server 10 mainly carries cloud access service of data, realizes encrypted cloud storage of the data, provides an external data interface based on user authentication, and provides a channel for data reading of the operation terminal 30. The system background of the cloud server 10 runs monitoring threads that will analyze whether the received water quality data exceeds a set threshold and provide automatic alarms and fault analysis based on historical data.

The cloud server 10 is arranged in the internet, is essentially an internet of things platform, and due to the development of cloud computing technology, related services are very cheap, and the cost of each intelligent water quality purification device is no more than 1 yuan. The cloud server 10 is provided with an alarm module for analyzing the water quality data collected by each monitoring terminal 20, and when the water quality data is abnormal, the cloud server 10 sends alarm information to the operation terminal 30.

Further, in the above-mentioned intelligent water quality monitoring system, the operation terminal 30 further includes a multipoint analysis module 34, which is used for performing comparative analysis on the water quality data detected by the plurality of first water quality sensors 21, or for performing comparative analysis on the water quality data detected by the plurality of second water quality sensors 22. The operation terminal 30 can perform big data analysis on the state data of the water quality purifying apparatus and the water quality sensor data and display the analysis results to the user in a visual manner.

Further, in the above-mentioned intelligent water quality monitoring system, the operation terminal 30 has at least one display screen. The monitoring equipment adopts two control modes, namely a local mode and an online mode. The local mode is realized by a display device and a control panel provided in the control module 23 itself. The control module 23 displays the water quality data collected by the water quality sensor through the display device, and meanwhile, a user can input a control instruction through the control panel, so that the control module 23 adjusts the operation state of each mechanism in the water quality purification equipment according to the control instruction. Furthermore, a touch screen can be adopted to integrate the display device and the control panel, so that the information of various water quality sensors can be displayed, and a contact type control mode is provided.

The online mode is to control the bidirectional flow of data through the cloud server 10, and respectively realize the remote monitoring and the remote operation of the working state of the water quality purification equipment. Wherein, the information of the remote monitoring terminal 20 flows to the operation terminal 30 through the cloud server 10: the water quality data collected by the control module 23 through the water quality sensor, such as temperature and humidity, water pressure at an inlet and an outlet of a filter, pressure difference before flushing, pressure difference after flushing, conductivity, pH value and the like, are transmitted to the wireless communication module through wired serial port communication, the wireless communication module converts the signals into WI F I signals and transmits the WI I signals to the home router (namely gateway equipment), the home router forwards the information to the cloud server 10 through the internet, and finally a manufacturer or a user can obtain the water quality data in real time through a manufacturer server or various intelligent mobile terminals to realize a remote monitoring function. By means of big data acquisition of the cloud server 10 and application programs installed on the operation terminal 30, remote water quality monitoring, power monitoring, equipment running state monitoring, intelligent maintenance assistance, water quality data analysis and fault alarm of the water quality purification equipment can be effectively achieved.

Further, in the above-mentioned intelligent water quality monitoring system, the operation terminal 30 is provided with a voice input device, and can report the water quality condition information to the cloud server 10 through voice input.

In the intelligent water quality monitoring system, the operation terminal 30 is further configured to send a control instruction for controlling the water quality purification device to the cloud server 10, and the cloud server 10 sends the control instruction to the monitoring terminal 20 through the gateway device; after the control module 23 in the monitoring terminal 20 receives the control instruction through the wireless communication module, the operation state of each mechanism in the water quality purification device is adjusted according to the control instruction.

In the above-mentioned intelligent water quality monitoring system, the operation terminal 30 further includes: and an alarm information sending/receiving module. The terminal is an intelligent mobile terminal or a manufacturer server.

Further, in the above-mentioned intelligent water quality monitoring system, the cloud server 10 is provided with an alarm module for analyzing the water quality data collected by each monitoring terminal 20, and when the water quality data is abnormal, an alarm message is sent to the operation terminal 30.

Furthermore, in the above-mentioned intelligent water quality monitoring system, the control module 23 has a control panel for inputting a local control command to locally control the water quality purification device.

It will be understood that modifications and variations can be made by persons skilled in the art in light of the above teachings and all such modifications and variations are intended to be included within the scope of the invention as defined in the appended claims.

Claims (10)

1. An intelligent water quality monitoring system comprises monitoring terminals, a cloud server and an operation terminal, wherein the monitoring terminals are in communication connection with the cloud server through gateway equipment, and the cloud server is connected with the operation terminal through a wired or wireless network; each monitoring terminal is installed on one water quality purification device and is used for collecting water quality data of the water quality purification device and controlling the operation of each mechanism of the water quality purification device; the cloud server is used for acquiring and storing water quality data of the water quality purification equipment through the monitoring terminals; the operation terminal is used for reading the water quality data of the water quality purification equipment stored in the cloud server, and analyzing and displaying the water quality data; the monitoring terminal is characterized by comprising a first water quality sensor, a second water quality sensor, a control module and a wireless communication module which are sequentially connected; wherein,

the first water quality sensor is used for collecting water quality data before being purified by the water quality purifying equipment;

the second water quality sensor is used for collecting water quality data purified by the water quality purification equipment;

the control module is used for controlling the operation of each mechanism of the water quality purification equipment and transmitting the water quality data obtained by the water quality sensor to the wireless communication module;

the wireless communication module is connected to the cloud server through gateway equipment and used for uploading water quality data to the cloud server;

the operation terminal comprises a first water quality state analysis module, a second water quality state analysis module and a water quality comparison analysis module;

the first water quality state analysis module is used for analyzing the water quality data before being purified by the water quality purification equipment;

the second water quality state analysis module is used for analyzing the water quality data purified by the water quality purification equipment;

and the water quality comparison and analysis module is used for comparing and analyzing the water quality data before being purified by the water quality purification equipment and the water quality data after being purified by the water quality purification equipment.

2. The intelligent water quality monitoring system according to claim 1, wherein the operation terminal further comprises a multi-point analysis module for performing comparative analysis on the water quality data detected by the plurality of first water quality sensors or performing comparative analysis on the water quality data detected by the plurality of second water quality sensors.

3. The intelligent water quality monitoring system according to claim 1, wherein the operation terminal has at least one display screen.

4. The intelligent water quality monitoring system according to claim 1, wherein the operation terminal is provided with a voice input device.

5. The intelligent water quality monitoring system according to claim 1, wherein the operation terminal is further configured to send a control instruction for controlling the water quality purification device to the cloud server, and the cloud server sends the control instruction to the monitoring terminal through the gateway device; and after the control module in the monitoring terminal receives the control instruction through the wireless communication module, the control module adjusts the running state of each mechanism in the water quality purification equipment according to the control instruction.

6. The intelligent water quality monitoring system according to claim 1, wherein the operation terminal further comprises: and an alarm information sending/receiving module.

7. The intelligent water quality monitoring system according to claim 1, wherein the operation terminal is an intelligent mobile terminal or a factory server.

8. The intelligent water quality monitoring system according to claim 1, wherein an alarm module is arranged in the cloud server and used for analyzing the water quality data collected by each monitoring terminal, and when the water quality data is abnormal, alarm information is sent to the operation terminal.

9. The intelligent water quality monitoring system according to claim 1, wherein the control module has a control panel for inputting a local control command to locally control the water quality purification device.

10. The intelligent water quality monitoring system of claim 1, wherein the first water quality sensor comprises at least one of a temperature sensor, a humidity sensor, a water pressure sensor, a conductivity sensor, and a PH sensor.