CN104794578A - Could computing based smart water affair management system - Google Patents

Abstract

The invention relates to a cloud computing based smart water affair management system. The system comprises a cloud computing water affair data center, a water quality monitoring system, a smart drainage system, a sewage treatment system, a tap water production scheduling management system, a smart water affair safeguard system and a water affair operation system. The cloud computing water affair data center is connected with the water quality monitoring system, the smart drainage system, the sewage treatment system, the tap water production scheduling management system, the smart water affair safeguard system and the water affair operation system respectively. By the cloud computing based smart water affair management system, information isolated islands are eliminated and system resource consumption is reduced.

Description

Intelligent water affair management system based on cloud computing

Technical Field

The invention relates to the technical field of computers, in particular to an intelligent water affair management system based on cloud computing.

Background

The essence of intelligent water affairs is an industry informatization development process with comprehensiveness and integrity, and can also refer to a specific city or regional water affair system which accords with the intelligent characteristics. The intelligent water affair applies the emerging information technology to the comprehensive management of the urban water affair. The sensor is embedded and equipped in a water circulation system, a sensing Internet of things is formed through universal connection, then water affairs and the Internet of things are integrated through a computer, and seamless integration between digital urban water affair facilities and physical urban water affair facilities is completed by taking multi-source coupled binary water circulation simulation, water resource regulation and control, a water affair virtual reality platform and the like as supports.

The traditional intelligent water affair management system comprises subsystems which operate independently, the subsystems are mutually separated, information communication cannot be realized, information islands of the system easily occur, and the data sharing cannot be realized among the subsystems, so that the same data is collected for multiple times among different systems, and the waste of system resources is caused.

Disclosure of Invention

Therefore, in order to solve the above technical problems, a cloud computing-based intelligent water management system capable of reducing system resource waste is provided.

A smart water management system based on cloud computing, the system comprising: the system comprises a cloud computing water affair data center, a water quality monitoring system, an intelligent waterlogging draining system, a sewage treatment system, a tap water production scheduling management system, a water affair intelligent security system and a water affair operation system, wherein the cloud computing water affair data center is respectively connected with the water quality monitoring system, the intelligent waterlogging draining system, the sewage treatment system, the tap water production scheduling management system, the water affair intelligent security system and the water affair operation system;

the cloud computing water affair data center is used for acquiring, storing and mining water affair basic data;

the water quality monitoring system is used for monitoring the water quality in real time according to the water service basic data;

the intelligent drainage system is used for controlling the operation of the urban drainage equipment according to the water affair basic data;

the sewage treatment system is used for adjusting the process flow of sewage treatment according to the water affair basic data and controlling the operation of sewage treatment equipment;

the tap water production scheduling management system is used for controlling the production of tap water of a tap water plant and scheduling the supply of the tap water according to the water service basic data;

the water affair intelligent security system is used for carrying out risk early warning according to the water affair basic data and sending an alarm when a danger occurs;

the water service operation system is used for acquiring the water consumption record of the user according to the water service basic data, and providing the functions of network inquiry of water consumption details and water fee payment for the user.

In one embodiment, the cloud computing water service data center comprises: the system comprises a data acquisition module, a data storage module, a data security module and a data mining module; wherein,

the data acquisition module is used for acquiring water affair basic data acquired by the intelligent node;

the data storage module is used for storing the water service basic data through a longitudinal multi-backup point and transverse backup mechanism;

the data security module is used for periodically sampling and inspecting each distributed node for storing the water affair basic data, sending out early warning information when finding a leak, and encrypting the water affair basic data;

and the data mining module is used for performing data mining on the water affair basic data according to the big data processing model.

In one embodiment, the cloud computing water service data center further includes: and the data management module is used for carrying out standardized management on the water affair basic data in a mode of combining the metadata base with the data resource catalog of the water affair basic data.

In one embodiment, the intelligent node comprises at least one of: the water quality monitoring system comprises a water quality on-line monitor, an intelligent remote water meter, a wireless intelligent water pressure sensor, a wireless intelligent water level sensor, a flowmeter and a water meter.

In one embodiment, the water service basic data includes: acquiring obtained water quality data through a water quality on-line monitor installed at a water source; the water quality monitoring system is also used for comparing and analyzing the water quality data and the historical data in real time, judging whether the water quality has potential health safety hazards or not, and if so, sending out alarm information.

In one embodiment, the water service basic data comprises water quantity data, water flow data and pipe network operation data acquired by sensors installed in a pipe network; the intelligent drainage system is also used for performing simulation drainage according to the water volume data, the water flow data and the pipe network operation data in the pipe network to obtain simulation drainage data, and controlling the drainage equipment to operate according to the simulation drainage data so as to achieve the same effect as the simulation drainage.

In one embodiment, the water service basic data includes: acquiring water quantity data and water quality data of a sewage treatment plant and equipment operation parameters of sewage treatment equipment through a sensor; the sewage treatment system is also used for adjusting the circulating activated sludge process of sewage treatment according to the water quantity data, the water level data and the equipment operation parameters of the sewage treatment plant, so that the circulating activated sludge process is adaptive to the operation of the sewage treatment equipment.

In one embodiment, the water service basic data includes: detecting underwater environment of hydraulic engineering by an underwater robot to obtain underwater video image data; the intelligent security system for the water conservancy project is also used for analyzing the safety of the water conservancy project through the underwater video image data, and sending alarm information when equipment faults or potential safety hazards exist in the water conservancy project.

In one embodiment, the water service basic data includes: uploading water use historical data of a user through the intelligent remote water meter; the water service operation system is also used for providing the water consumption historical data for the user to inquire and receiving the water fee corresponding to the water consumption historical data paid by the user through the network.

In one embodiment, the system is characterized by further comprising a pipe network management system, wherein the pipe network management system is respectively connected with the water quality monitoring system, the intelligent waterlogging draining system, the sewage treatment system, the tap water production scheduling management system, the water intelligent security system and the water service operation system; the pipe network management system is used for constructing a visual pipe network image by combining a GIS and a three-dimensional modeling technology.

According to the cloud-computing-based intelligent water affair management system, the water affair basic data are collected, stored and mined uniformly by the cloud-computing water affair data center, so that data required by each subsystem under the cloud-computing-based intelligent water affair management system can be obtained through the cloud-computing water affair data center, the cloud-computing water affair data center serves as a data sharing center to avoid information islands among the subsystems, the water affair basic data used by each subsystem are provided by the cloud-computing water affair data center, the system does not need to collect data independently, and consumption of system resources is reduced.

Drawings

FIG. 1 is a schematic diagram of an embodiment of a cloud computing based intelligent water management system;

FIG. 2 is a schematic structural diagram of a cloud computing water service data center in one embodiment;

FIG. 3 is a diagram illustrating an exemplary implementation of a cloud computing based intelligent water management system.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In one embodiment, as shown in fig. 1, there is provided a smart water management system based on cloud computing, the system comprising: the system comprises a cloud computing water affair data center 10, a water quality monitoring system 11, an intelligent waterlogging draining system 12, a sewage treatment system 13, a tap water production scheduling management system 14, a water affair intelligent security system 15 and a water affair operation system 16, wherein the cloud computing water affair data center 10 is respectively connected with the water quality monitoring system, the intelligent waterlogging draining system 12, the sewage treatment system 13, the tap water production scheduling management system 14, the water affair intelligent security system 15 and the water affair operation system 16.

And the cloud computing water affair data center 10 is used for collecting, storing and mining water affair basic data.

The water affair basic data refers to mass data obtained by carrying out multi-dimensional data acquisition based on water affairs. The water affair basic data comprises water affair data and data related to water affairs. The water affair data comprises: water quantity, water level, water quality and other water property data. Data related to water utilities include: process data of tap water production, pipe network operation data of transporting water, equipment data of producing tap water, operation data of water plants and the like.

The cloud computing water affair data center 10 comprehensively processes water affair basic data. The method comprises the steps that 20-50 array disk servers are needed for building the cloud computing water affair data center 10, a linux system is loaded, a java environment is configured, a ssh access mode is set, a Hadoop framework is installed, a Mahout algorithm library is installed at the same time, one of the systems is configured as a management machine, and the rest of the systems are working nodes, so that the building of the cloud computing water affair data center 10 is achieved.

The primary and core tasks of the cloud computing water center of the intelligent water service are to establish a distributed server cluster based on big data, and the server cluster mainly comprises the following components: big data calculation frame, network communication protocol processing engine, hydrology and water conservancy information database, data mining and machine learning model base. The Hadoop framework is applied to a Map-Reduce mode, is specially used for real-time processing of distributed mass data, and is high in efficiency, low in cost and controllable in risk. The Hadoop framework can construct a hydrological and hydraulic information database which is easy to store and read big data, and a MySQL distributed database is adopted for the data with small size and large quantity; the data with large data size and small data amount adopts an Hbase non-relational database, and the database is constructed by combining MySQL with the Hbase.

In one embodiment, the cloud computing water affair data center 10 adopts a pluggable and installable service access design, so that new services can be added, and simultaneously, the communication protocols and technical parameters of national and industrial standards can be provided by accessing e-government affairs, government platforms and the like. And online service and decision support are provided for social public and management departments at all levels of water affairs. The cloud computing water affair data center 10 realizes the standardized management of data by combining a metadata database with a data resource catalog, and builds a data warehouse on the basis of the existing comprehensive database to provide data support for the processes of analysis, statistics, decision making and the like.

In one embodiment, the cloud computing water service data center 10 organizes all the systems involved in the intelligent water service through a wired/wireless ad hoc network. The enterprise can be helped to establish a command control center through a cooperative office system and an enterprise resource planning platform, all operation data are monitored in a centralized mode, equipment is controlled remotely, and the operation condition of the enterprise is clear through a visual control center.

As shown in fig. 2, in one embodiment, the cloud computing water service data center 10 includes: the system comprises a data acquisition module 101, a data storage module 102, a data security module 103 and a data mining module 104; wherein,

and the data acquisition module 101 is used for acquiring water service basic data acquired by the intelligent node.

In one embodiment, the intelligent nodes include, but are not limited to, at least one of: the water quality monitoring system comprises a water quality on-line monitor, an intelligent remote water meter, a wireless intelligent water pressure sensor, a wireless intelligent water level sensor, a flowmeter, an intelligent handheld terminal and a water flow meter. For example, water quality on-line monitors are used to collect water quality data in real time, such as ph, chemical composition, etc. of water; the intelligent remote water meter is used for reporting water consumption data of enterprises, schools, families, factories, hospitals and other places.

And the data storage module 102 is used for storing the water affair basic data through a longitudinal multi-backup point and a transverse backup mechanism.

In this embodiment, the data storage medium under the Hadoop framework has three different storage states, that is, a horizontal storage state, a vertical storage state, and a vertical and horizontal storage state, so that by using this characteristic, two of the two storage states are used as data storage forms, and the remaining one is used as a data backup form, so that a vertical backup point can be generated on each Hadoop node, and a horizontal backup mechanism refers to that a plurality of Hadoop nodes perform backup together, and can complete a recovery task together after data is damaged. The recovery and backup of the water service basic data are facilitated by adopting a unique longitudinal multi-backup point and transverse backup mechanism, and the disaster tolerance of the water service basic data is ensured.

And the data security module 103 is used for periodically sampling and inspecting each distributed node for storing the water service basic data, sending out early warning information when finding a leak, and encrypting the water service basic data. In this embodiment, MD5, DES, and RSA are combined to encrypt the water service basic data.

And the data mining module 104 is used for performing data mining on the water affair basic data according to the big data processing model.

In the embodiment, a model base is built by the Mahout machine learning and data mining algorithm base, and the algorithms in the model base are recombined, adjusted, optimized and sequenced according to different services and calculation types to form the model base aiming at water service basic data mining and machine learning.

In one embodiment, the cloud computing water service data center 10 further includes: and the data management module is used for carrying out standardized management on the water affair basic data in a mode of combining the metadata base with the data resource catalog of the water affair basic data.

The data management module comprises a service application system, the service application system uses a uniform universal module on common services, and individual modules can be developed aiming at individual services. And the sharing, upgrading and management of the modules are realized through the management platform. And a vertically through and horizontally cooperative business application chain is formed, and online service and decision support are provided for social public and management departments at all levels of water affairs.

In this embodiment, the smart water affair management system is an ecosystem with an internet of things as a basic platform, and the cloud computing water affair data center 10 has functions of data storage, data security, performance design, data mining and system expansion. The performance design adopts distributed computation, aiming at the water service requirement characteristics, the serviceability under the large-scale high concurrent access scene is ensured, and meanwhile, the data center can ensure the special integration requirement of various heterogeneous products related to water service construction. The data mining function is that the service center can perform data mining according to the big data processing model and by means of local data of the service center and data collected in real time, information such as business decision, natural disaster early warning and the like is generated, and the data are converted into information and service.

And the water quality monitoring system 11 is used for monitoring the water quality in real time according to the water service basic data. In this embodiment, the water quality monitoring system 11 monitors the water quality around the water resource, the water environment, and the water ecology.

In one embodiment, the water service base data includes: the water quality monitoring system 11 is also used for comparing and analyzing the water quality data and historical data in real time to judge whether the water quality has potential health safety hazards, and if so, sending alarm information to a terminal corresponding to a relevant responsible person.

And the intelligent drainage system 12 is used for controlling the operation of the urban drainage equipment according to the water affair basic data.

In one embodiment, the water service basic data comprises water quantity data, water flow data and pipe network operation data acquired by sensors arranged in a pipe network; the intelligent drainage system 12 is also used for performing simulation drainage according to the water volume data, the water flow data and the pipe network operation data in the pipe network to obtain simulation drainage data, and controlling the drainage equipment to operate according to the simulation drainage data to achieve the same effect as the simulation drainage.

And the sewage treatment system 13 is used for adjusting the process flow of sewage treatment according to the water affair basic data and controlling the operation of sewage treatment equipment.

In one embodiment, the water service base data includes: acquiring water quantity data and water quality data of a sewage treatment plant and equipment operation parameters of sewage treatment equipment through a sensor; the sewage treatment system 13 is also configured to adjust a cyclic activated sludge process for sewage treatment according to the water volume data, the water level data, and the equipment operation parameters of the sewage treatment plant, so that the cyclic activated sludge process is adapted to the operation of the sewage treatment equipment.

In this embodiment, the sewage treatment system 13 is used for automatic modification and deployment, automatic operation support, service support, and remote trusteeship operation of a town sewage treatment plant, and performs optimization design on a common CASS process of the sewage treatment plant by using a self-programming technology, an embedded system technology, and a wireless industrial network technology.

The CASS process is a common sewage treatment process flow for treating urban domestic sewage. The self-programming is a means for improving the self intelligence by changing the self program, is a technology in the artificial intelligence category, and the use of the technology can enable the sewage treatment system 13 to generate a certain degree of artificial intelligence and self-learning and modifying capability. As the composition of sewage tends to be more diversified, the fixed treatment methods and parameters are not suitable for the treatment process after the system is operated for a certain time. Through the self-programming technology, the system can be adjusted by self within a certain degree and range to adapt to the changed process flow, which is more efficient and accurate than manual adjustment and saves the cost.

The automatic modification and deployment mainly refers to the integration and networking of field devices by using industrial automation related technologies, the operation is performed through a certain algorithm, manual intervention can be supported, automatic control can also be realized, and the automatic operation and service support are contents in the category. The remote flower hosting operation means that the remote monitoring of sewage treatment is realized through the internet or a private network, and the remote control can be realized to achieve the hosting operation as long as a control end on site has a network communication function and carries out data communication with a remote flower hosting operator through a communication protocol.

The process flow of sewage treatment is adjusted according to the water service basic data, so that the operation management level of a sewage treatment plant can be improved, and the sewage treatment effect is further improved. In addition, the sewage treatment system 13 is connected with the physical network system, and a remote expert can remotely diagnose and remove the fault of the sewage treatment plant through the Internet of things, so that the risk resistance capability of the sewage treatment plant is improved. The cloud computing water affair data center 10 carries out big data mining through the data mining platform after collecting the operation data of the sewage treatment plant, and can provide effective scientific guidance basis for the sewage treatment industry of the whole town. And the tap water production scheduling management system 14 is used for controlling the production of tap water of the tap water plant and scheduling the supply of the tap water according to the water service basic data.

And the water affair intelligent security system 15 is used for carrying out risk early warning according to the water affair basic data and sending an alarm when a danger is met.

In one embodiment, each distributed node regularly packages and sends the operation status of the distributed node and other equipment facilities connected to the distributed node to a computing center, the computing center judges links or equipment facilities which may have problems through business calculation and data mining, generates an early warning report, and sends the early warning report to a terminal of a related responsible person through mails and short messages, or generates early warning information in a system. The intelligent security system 15 for water utilities is constructed around a flood control and drought resisting system, a flood control system, an urban water supply and drainage system and an ecological river and lake control system.

In one embodiment, the water service base data includes: detecting underwater environment of hydraulic engineering by an underwater robot to obtain underwater video image data; the water affair intelligent security system 15 is also used for analyzing the safety of the hydraulic engineering through the underwater video image data, and sending alarm information when the hydraulic engineering is judged to have equipment faults or potential safety hazards in advance.

In the embodiment, the underwater robot carries the high-precision optical fiber gyroscope and the Doppler log to realize underwater positioning of the underwater robot body, control of operators and data acquisition are facilitated, carried underwater camera shooting can perform image recognition on dam cracks and underwater pipelines in real time, underwater sonar images are generated to be analyzed in deep water areas where light cannot meet the illumination requirement by adopting underwater sonar, and the underwater robot is adopted to perform underwater detection tasks, so that the working efficiency is improved, and the risk degree of manual task execution is reduced. For example: in the power station power generation shutdown state, the access gate slot and the bottom sill of the power station generator set are carefully checked, the underwater part engineering quality of the dam is comprehensively reflected, and operations such as real-time image video data are provided for safe operation of reservoir engineering.

The water service operation system 16 is used for acquiring the water consumption record of the user according to the water service basic data, and providing the functions of network inquiry of water consumption details and water fee payment for the user.

In one embodiment, the water service base data includes: uploading water use historical data of a user through the intelligent remote water meter; the water service operation system 16 is also used for providing the water consumption historical data to the user for inquiry and receiving the water fee corresponding to the water consumption historical data paid by the user through the network.

In this embodiment, the water service operation system 16 provides the user with an online self-service, which includes querying a water usage history, paying a water fee, and reporting and repairing a water usage facility. The user can not go out to enjoy the service provided by the enterprise by logging in the website through the terminal.

According to the cloud-computing-based intelligent water affair management system, the water affair basic data are collected, stored and mined uniformly by the cloud-computing water affair data center, so that data required by each subsystem under the cloud-computing-based intelligent water affair management system can be obtained through the cloud-computing water affair data center, the cloud-computing water affair data center serves as a data sharing center to avoid information islands among the subsystems, the water affair basic data used by each subsystem are provided by the cloud-computing water affair data center, the system does not need to collect data independently, and consumption of system resources is reduced.

As shown in fig. 3, in one embodiment, the intelligent remote water meters 30 in office buildings, factories, residences and schools upload water usage data to the cloud server cluster 32 through a wireless network, or the meter reading person a stores the water usage data to the cloud server cluster 32 through the handheld meter reading device 31. And the user B can inquire the water use data details and carry out network payment of water fee through the water service operation platform through the terminal.

In one embodiment, the cloud computing water service data center 10 is further connected with a water service enterprise collaborative office platform, a water service Enterprise Resource Planning (ERP), and can help an enterprise establish a command control center through a collaborative office system and an enterprise resource planning platform, all operation data are monitored in a centralized manner, equipment is controlled remotely, and a visual control center makes the operation condition of the enterprise clear at a glance.

In one embodiment, the cloud computing-based intelligent water affair management system further comprises a pipe network management system, and the pipe network management system is respectively connected with the water quality monitoring system 11, the intelligent drainage system 12, the sewage treatment system 13, the tap water production scheduling management system 14, the water affair intelligent security system 15 and the water affair operation system 16; the pipe network management system is used for constructing a visual pipe network image by combining a GIS and a three-dimensional modeling technology. Visual pipe network images facilitate managers to quickly and accurately locate the position of a fault in the pipe network, and work efficiency is improved.

The technical features of the above embodiments can be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the above embodiments are not described, but should be considered as the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above examples only show some embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A smart water management system based on cloud computing, the system comprising: the system comprises a cloud computing water affair data center, a water quality monitoring system, an intelligent waterlogging draining system, a sewage treatment system, a tap water production scheduling management system, a water affair intelligent security system and a water affair operation system, wherein the cloud computing water affair data center is respectively connected with the water quality monitoring system, the intelligent waterlogging draining system, the sewage treatment system, the tap water production scheduling management system, the water affair intelligent security system and the water affair operation system;

the cloud computing water affair data center is used for acquiring, storing and mining water affair basic data;

the water quality monitoring system is used for monitoring the water quality in real time according to the water service basic data;

the intelligent drainage system is used for controlling the operation of the urban drainage equipment according to the water affair basic data;

the sewage treatment system is used for adjusting the process flow of sewage treatment according to the water affair basic data and controlling the operation of sewage treatment equipment;

the tap water production scheduling management system is used for controlling the production of tap water of a tap water plant and scheduling the supply of the tap water according to the water service basic data;

the water affair intelligent security system is used for carrying out risk early warning according to the water affair basic data and sending an alarm when a danger occurs;

the water service operation system is used for acquiring the water consumption record of the user according to the water service basic data, and providing the functions of network inquiry of water consumption details and water fee payment for the user.

2. The system of claim 1, wherein the cloud computing water service data center comprises: the system comprises a data acquisition module, a data storage module, a data security module and a data mining module; wherein,

the data acquisition module is used for acquiring water affair basic data acquired by the intelligent node;

the data storage module is used for storing the water service basic data through a longitudinal multi-backup point and transverse backup mechanism;

the data security module is used for periodically sampling and inspecting each distributed node for storing the water affair basic data, sending out early warning information when finding a leak, and encrypting the water affair basic data;

and the data mining module is used for performing data mining on the water affair basic data according to the big data processing model.

3. The system of claim 2, wherein the cloud computing water service data center further comprises: and the data management module is used for carrying out standardized management on the water affair basic data in a mode of combining the metadata base with the data resource catalog of the water affair basic data.

4. The system of claim 2, wherein the intelligent node comprises at least one of: the water quality monitoring system comprises a water quality on-line monitor, an intelligent remote water meter, a wireless intelligent water pressure sensor, a wireless intelligent water level sensor, a flowmeter and a water meter.

5. The system of claim 1, wherein the water infrastructure data comprises: acquiring obtained water quality data through a water quality on-line monitor installed at a water source; the water quality monitoring system is also used for comparing and analyzing the water quality data and the historical data in real time, judging whether the water quality has potential health safety hazards or not, and if so, sending out alarm information.

6. The system of claim 1, wherein the water service basic data comprises water quantity data, water flow data and pipe network operation data acquired by sensors installed in a pipe network; the intelligent drainage system is also used for performing simulation drainage according to the water volume data, the water flow data and the pipe network operation data in the pipe network to obtain simulation drainage data, and controlling the drainage equipment to operate according to the simulation drainage data so as to achieve the same effect as the simulation drainage.

7. The system of claim 1, wherein the water infrastructure data comprises: acquiring water quantity data and water quality data of a sewage treatment plant and equipment operation parameters of sewage treatment equipment through a sensor; the sewage treatment system is also used for adjusting the circulating activated sludge process of sewage treatment according to the water quantity data, the water level data and the equipment operation parameters of the sewage treatment plant, so that the circulating activated sludge process is adaptive to the operation of the sewage treatment equipment.

8. The system of claim 1, wherein the water infrastructure data comprises: detecting underwater environment of hydraulic engineering by an underwater robot to obtain underwater video image data; the intelligent security system for the water conservancy project is also used for analyzing the safety of the water conservancy project through the underwater video image data, and sending alarm information when equipment faults or potential safety hazards exist in the water conservancy project.

9. The system of claim 1, wherein the water infrastructure data comprises: uploading water use historical data of a user through the intelligent remote water meter; the water service operation system is also used for providing the water consumption historical data for the user to inquire and receiving the water fee corresponding to the water consumption historical data paid by the user through the network.

10. The system according to any one of claims 1 to 9, further comprising a pipe network management system, wherein the pipe network management system is connected to the water quality monitoring system, the intelligent waterlogging draining system, the sewage treatment system, the tap water production scheduling management system, the water service intelligent security system and the water service operation system respectively; the pipe network management system is used for constructing a visual pipe network image by combining a GIS and a three-dimensional modeling technology.