CN113222369A - Zero-excavation-concept-fused drainage monitoring system and method and storage medium - Google Patents

Abstract

The invention discloses a zero-excavation-concept-fused drainage monitoring system, a zero-excavation-concept-fused drainage monitoring method and a storage medium, wherein the drainage monitoring system comprises: the system comprises a data control device, a road surface integrated device and a drainage control assembly, wherein the data control device, the road surface integrated device and the drainage control assembly are sequentially in communication connection; the drainage control assembly comprises a plurality of monitoring devices and executing devices, the monitoring devices are used for collecting and monitoring data information in the drainage pipeline, and the executing devices are used for receiving a preset drainage command and executing drainage operation; the road surface integration device comprises a plurality of extensible Internet of things devices, and is used for transmitting data information acquired by the drainage control assembly and supplying energy to the monitoring device and the data control device; the data control device is used for receiving the data information collected by the drainage control assembly and managing and applying the data information. The invention reduces the operation and maintenance difficulty of the drainage pipeline and the drainage well.

Description

Zero-excavation-concept-fused drainage monitoring system and method and storage medium

Technical Field

The invention relates to the technical field of drainage, in particular to a drainage monitoring system and method fusing a zero excavation idea and a storage medium.

Background

Along with the rapid development of urbanization, the rainwater drainage pipelines of many cities are often blocked due to overload, so that urban waterlogging is caused. In order to solve the problem, monitoring of the drainage pipeline is realized by means of the control of monitoring equipment of the Internet of things, and the monitoring becomes an important task of intelligent water service construction. However, the current monitoring equipment is installed in a drainage pipeline by means of a drainage well and an inspection well, and the auxiliary equipment for power supply, transmission and the like is installed on a well wall, so that road sealing and road breaking are required in the construction aspect, and a series of problems of traffic jam, inconvenience in operation and maintenance construction and the like are caused.

Disclosure of Invention

The invention mainly aims to provide a drainage monitoring system, a drainage monitoring method and a storage medium which are integrated with a zero excavation idea, and aims to solve the problem that the operation, maintenance and construction of the current monitoring equipment are inconvenient.

To achieve the above object, the present invention provides a drainage monitoring system, comprising: the system comprises a data control device, a road surface integrated device and a drainage control assembly, wherein the data control device, the road surface integrated device and the drainage control assembly are sequentially in communication connection;

the drainage control assembly is arranged in a drainage pipeline and a drainage well, and comprises a plurality of monitoring devices and executing devices, wherein the monitoring devices are used for acquiring and monitoring data information in the drainage pipeline, and the executing devices are used for receiving a preset drainage command and executing drainage operation;

the road surface integration device comprises a plurality of extensible Internet of things devices, and the extensible Internet of things devices are used for transmitting data information acquired by the monitoring devices and providing electric energy for the monitoring devices and the data control devices;

the data control device is used for receiving the data information collected by the drainage control assembly and managing and applying the data information.

Optionally, the monitoring device is used for collecting and monitoring parameters of water quality, liquid level, flow rate, flow and gas change in the drainage pipeline and the drainage well.

Optionally, the monitoring device comprises one or more of a liquid level meter, a flow rate meter, a water quality monitor, and a gas monitor.

Optionally, the road surface integration device comprises:

the rod body is arranged on one side of the road;

the road surface information acquisition unit, the communication unit and the power supply unit are all arranged on the rod body;

the road surface information acquisition unit is used for acquiring road surface information;

the communication unit is used for transmitting the road surface information to the data control device;

and the power supply unit is used for supplying power to the data control device and the drainage control assembly according to a preset power supply mode.

Optionally, the data control device includes a data access module, a data management module, a service application module, and a system management module;

the data access module is used for carrying out network protocol management on the drainage control assembly and the road surface integrated device and setting acquisition frequency;

the data management module is used for performing archive management, configuration management, monitoring data management and service data management on the drainage control assembly and the road surface integrated device;

the service application module is used for carrying out equipment positioning, alarm management and data analysis on the drainage control assembly and the road surface integrated device;

the system management module is used for managing user authority, user authentication and operation monitoring of the drainage monitoring system.

In order to achieve the above object, the present invention further provides a drainage monitoring method applied to the drainage monitoring system, including the steps of:

controlling the monitoring equipment to collect data information of water quality, liquid level, flow velocity, flow and gas change according to a preset collection frequency, and sending the data information to the data control device;

controlling the pavement integration device to collect pavement data information according to a preset collection frequency, and sending the pavement data information to the data control device;

and controlling the data control device to control the execution equipment to drain water according to the data information and the road surface data information.

Optionally, the step of controlling the data control device to control the execution equipment to drain water according to the data information and the road surface data information includes:

controlling the data control device to judge whether a preset drainage condition is met or not according to the data information and the pavement data information;

and if the preset drainage condition is met, controlling the execution equipment to perform drainage operation.

Optionally, the step of controlling the data control device to control the execution equipment to drain water according to the data information and the road surface data information further includes:

and receiving a drainage instruction sent by a user, and controlling the drainage control assembly to perform drainage operation.

Optionally, the step of receiving a drainage instruction sent by a user and controlling the drainage control module to perform a drainage operation includes:

the control data control device verifies the authority information of the login user and confirms the authority level of the user;

and controlling the data control device to open the function corresponding to the user permission level to the user according to the permission level.

To achieve the above object, the present invention also provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements the steps of the drainage monitoring method as described above.

According to the drainage monitoring system, the drainage monitoring method and the storage medium, the drainage control assemblies arranged in the drainage pipeline and the drainage well are used for monitoring the water quality, the liquid level, the flow speed, the flow and the gas change in the drainage pipeline and the drainage well in real time, so that abnormal conditions are prevented from occurring, and drainage is not timely; the method comprises the steps that pavement information data are collected through a pavement integration device, and an instruction is sent to a data control device for analysis, so that the data control device judges whether drainage is needed or not, waterlogging caused by excessive pavement water accumulation is prevented, meanwhile, transmission equipment and power supply equipment can be installed on the pavement integration device, equipment in a drainage pipeline and a drainage well is reduced, and the problem that a well mouth is filled due to the fact that a large amount of equipment is installed in a closed road and a well is solved; through data control device has realized the management of information data and road surface integrated device and drainage control assembly's equipment information, has improved the security for managers can real-time supervision drainage well and the interior condition of drainage pipe.

Drawings

FIG. 1 is a schematic diagram of a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the drainage monitoring system of the present invention;

FIG. 3 is a schematic flow chart of a drainage monitoring method according to a first embodiment of the present invention;

FIG. 4 is a detailed flowchart of step S30 in the second embodiment of the drainage monitoring method according to the present invention;

FIG. 5 is a flow chart of a drainage monitoring method according to a third embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 1 is a schematic diagram of a hardware structure of a drainage monitoring system according to various embodiments of the present invention. The drainage monitoring system comprises a communication module 01, a memory 02, a processor 03 and the like. Those skilled in the art will appreciate that the drainage monitoring system shown in FIG. 1 may also include more or fewer components than shown, or some components may be combined, or a different arrangement of components. The processor 03 is connected to the memory 02 and the communication module 01, respectively, and the memory 02 stores a computer program, which is executed by the processor 03 at the same time.

The communication module 01 may be connected to an external device through a network. The communication module 01 may receive data sent by an external device, and may also send data, instructions, and information to the external device, where the external device may be an electronic device such as a mobile phone, a tablet computer, a notebook computer, and a desktop computer.

The memory 02 may be used to store software programs and various data. The memory 02 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function, and the like; the storage data area may store data or information created from use of the drainage monitoring system, or the like. Further, the memory 02 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other volatile solid state storage device.

The processor 03, which is a control center of the drainage monitoring system, connects various parts of the whole drainage monitoring system by using various interfaces and lines, and performs various functions and processing data of the drainage monitoring system by running or executing software programs and/or modules stored in the memory 02 and calling data stored in the memory 02, thereby performing overall monitoring of the drainage monitoring system. Processor 03 may include one or more processing modules; preferably, the processor 03 may integrate an application processor, which mainly handles operating systems, user interfaces, application programs, etc., and a modem processor, which mainly handles wireless communications. It will be appreciated that the modem processor described above may not be integrated into the processor 03.

Although not shown in fig. 1, the drainage monitoring system may further include a circuit control module, where the circuit control module is used for being connected to a mains supply to implement power control and ensure normal operation of other components.

Those skilled in the art will appreciate that the drain monitoring system configuration shown in FIG. 1 does not constitute a limitation of the drain monitoring system, and may include more or fewer components than shown, or some components in combination, or a different arrangement of components.

In one embodiment, the drainage monitoring system comprises:

the system comprises a data control device 010, a road surface integrated device 008 and a drainage control assembly 009, wherein the data control device 010, the road surface integrated device 008 and the drainage control assembly 009 are sequentially in communication connection; the drainage control assembly 009 is arranged in the drainage pipeline 007 and the drainage well 004, the drainage control assembly 009 comprises a plurality of monitoring devices 005 and an execution device 006, the monitoring devices 005 are used for collecting and monitoring data information in the drainage pipeline 007, and the execution device 006 is used for receiving a preset drainage command and executing a preset drainage operation; the road surface integration device 008 comprises a plurality of extensible internet of things devices 001, and is used for transmitting data information acquired by the drainage control assembly 009 and providing electric energy for the monitoring device and the data control device 010; the data control device 010 is configured to receive the data information collected by the drainage control module 009, and manage and apply the data information.

Furthermore, the monitoring device 005 in the drainage control module 009 comprises sensors such as a liquid level meter, a flow rate meter, a water quality monitor and a gas monitor, and is used for monitoring data information in the drainage well 004 and the drainage pipeline 007 in an all-around manner, so as to ensure the accuracy of the data;

further, the expandable internet of things equipment 001 comprises a camera, a rain gauge and other equipment, and is used for collecting information of the surface water accumulation condition, and centrally monitoring and managing important nodes such as urban low-lying areas, waterlogging points and surface water accumulation points;

in the invention, the water quality, liquid level, flow rate, flow and gas changes in the drainage pipeline 007 and the drainage well 004 are monitored in real time through the drainage control components 009 installed in the drainage pipeline 007 and the drainage well 004, so that abnormal conditions are prevented from occurring, drainage is not timely, and meanwhile, the maintenance and replacement are convenient; the road surface information data are collected through the road surface integration device 008, and an instruction is sent to the data control device 010 to be analyzed, so that the data control device 010 judges whether water drainage is needed or not, waterlogging caused by excessive road surface water accumulation is prevented, meanwhile, transmission equipment and power supply equipment can be installed on the road surface integration device 008, equipment in a drainage pipeline 007 and a drainage well 004 is reduced, and the problem that a large amount of equipment is installed under a closed road and a well to fill a well mouth is solved; through data control device 010 has realized the management of information data and road surface integrated device 008 and the equipment information of drainage control subassembly 009, has improved the security for managers can the condition in real time supervision drainage well 004 and the drainage pipe 007.

Further, the monitoring device 005 is used for collecting and monitoring parameters of water quality, liquid level, flow rate and gas change in the drainage pipeline 007 and the drainage well 004;

further, the monitoring device 005 comprises one or more of a liquid level meter, a flow rate meter, a water quality monitor and a gas monitor;

in the invention, the drainage control assembly 009 can be specifically installed on the inner wall of the drainage well 004 or the inner wall, the upper arm or the bottom of the drainage pipeline 007, and the like, and can complete the monitoring and data acquisition of sewage and gas in the pipeline. Main monitoring facilities such as level gauge, flowmeter, velocity of flow meter, water quality monitoring appearance and gas monitoring appearance 005 adopt the sensor of ultrasonic wave or radar mode, only need install sensor equipment in the pit and the pipeline, make things convenient for the later stage during fortune dimension, only need maintain or change sensor equipment can.

Further, the road surface integration device 008 includes: the rod body 002, the rod body 002 locates one side of the road; the road surface information acquisition unit, the communication unit and the power supply unit are all arranged on the rod body 002; the road surface information acquisition unit is used for acquiring road surface information; the communication unit is configured to transmit the road surface information to the data control device 010; the power supply unit is used for supplying power to the data control device 010 and the drainage control assembly 009 according to a preset power supply mode;

the preset power supply mode comprises the following steps: a solar power supply mode and a mobile power supply mode based on a storage battery.

In the invention, power supply equipment, data acquisition and transmission equipment and the like are integrated on a road surface pole body, and the road surface pole body can be arranged on a roadside and a green belt and the like which are not far away from a well, and can also be integrated on a street lamp pole in the current city. Meanwhile, facilities such as a camera, a rain gauge and the like can be expanded and integrated, and the system is used for centrally monitoring and managing important nodes such as urban low-lying areas, waterlogging points and road surface water accumulation points. Later maintenance, operation and maintenance management mainly concentrate on parts such as communication, power supply, simultaneously in road surface and pit, through engineering construction techniques such as directional drilling, accomplish the integrated construction of sensing equipment and data acquisition and communication equipment, realized the zero excavation construction, do not need to go into the pit, do not influence the traffic.

Further, the data control device 010 includes a data access module, a data management module, a service application module, and a system management module; the data access module is used for carrying out network protocol management on the drainage control assembly 009 and the road surface integrated device 008 and setting acquisition frequency; the data management module is used for performing archive management, configuration management, monitoring data management and service data management on the drainage control assembly 009 and the road surface integrated device 008; the service application module is used for carrying out equipment positioning, alarm management and data analysis on the drainage control assembly 009 and the road surface integrated device 008; the system management module is used for managing user authority, user authentication and operation monitoring of the drainage monitoring system.

In the invention, the data access module has a protocol management function, and specifically, protocols and protocols of the drainage control assembly and the road surface integrated device are analyzed and adapted to meet protocol requirements of data communication, so that the adaptation and access of the drainage control assembly and the road surface integrated device are completed; the system also has a data acquisition function, and particularly realizes data acquisition of monitoring data according to the service requirement and the setting of data acquisition frequency through the configuration of the drainage control assembly and the pavement integration device after the protocols are communicated. The data management module has an equipment file management function, completes the warehousing of basic data of the drainage control assembly and the road surface integrated device, forms an equipment asset file and realizes the management and control of the full life cycle; the system also has an equipment configuration management function, and particularly completes basic configuration management of equipment GIS space setting and operation parameter setting for the configuration management of the drainage control assembly and the road surface integrated device so as to meet the basic configuration requirement of normal operation of a drainage monitoring system; the data information management function is specifically used for finishing the inspection, filtration, cleaning and warehousing of the data information and realizing the real-time application and historical data application of the data information; and (4) managing service data, finishing dynamic service data such as daily inspection, maintenance and the like, and forming a medical record and a health monitoring record of normal operation of the equipment. The service application module has an equipment positioning function, the equipment positioning is based on a geographic information technology, map visual management and application are realized, and the geographic positions of the drainage control assembly and the road surface integrated device are sensed, inquired, positioned and monitored in real time in a map and equipment list mode; the alarm management function is used for finishing the setting of an alarm threshold value, the alarm condition, the alarm disposal and other services; and data analysis, namely, various data information analyses can be flexibly generated according to requirements based on the data information and the historical data information acquired in real time so as to meet the requirements of business analysis and better support the decision of a management user. The service application module has a user authority function, and specifically performs user definition and authority menu setting of a system level and an operation level according to service operation requirements so as to meet different operation management and maintenance of different users; the authentication management function is used for completing safety measures such as user authentication, user login and the like from the perspective of system safety; and operation monitoring, namely, monitoring the normal operation of background monitoring equipment, services, cloud platforms and other basic resources of the information drainage system, and timely alarming and handling when an abnormality occurs. And the data management and the service application are realized through the data control device. The visual business application platform is provided for users, the monitoring data of the internet of things and the operation condition of the monitoring equipment are sensed in real time, data analysis is carried out, and the business management needs are met.

Various embodiments of the method of the present invention are presented in terms of the above-described hardware architecture.

Referring to fig. 3, the present invention also discloses a drainage monitoring method applied to the drainage monitoring system as described above, including the steps of:

step S10, controlling the monitoring equipment to collect data information of water quality, liquid level, flow rate, flow and gas change according to a preset collection frequency, and sending the data information to the data control device;

in this embodiment, the preset collection frequency may be set on the data control device, specifically, may be set to 30 minutes/time, 40 minutes/time, 50 minutes/time or 60 minutes/time, and the manager may set different collection frequencies according to actual needs, so as to realize information collection in the drainage pipeline and the drainage well; quality of water, liquid level, velocity of flow, the specific accessible level gauge of gas change data information, flowmeter, velocity of flow meter, water quality monitoring appearance and gas monitoring appearance etc. main monitoring facilities gather, and the sensor that still can select different adoption ultrasonic wave or radar mode as required of the technical staff in the field carries out information acquisition, realizes the information acquisition in drainage pipe and the drainage well.

Step S20, controlling the road surface integration device to collect road surface data information according to a preset collection frequency, and sending the road surface data information to the data control device;

in this embodiment, the road surface information includes: the road traffic flow, the flow of people, the surface gathered water condition, the rainfall, the road surface jam condition, specific accessible are installed the camera and the rain gauge of the body of rod are gathered, the body of rod is specifically mountable at roadside or greenbelt, also can directly replace with current street lamp.

Step S30, controlling the data control device to control the execution device to drain water according to the data information and the road surface data information;

in this embodiment, the preset drainage condition may be that the surface water exceeds a warning line; the water level in the drainage well exceeds a warning line; the water quality in the drainage well is polluted; the flow velocity in the drainage pipeline exceeds an alarm value, and the like, and the technicians in the field can set different drainage conditions according to actual requirements so as to meet the normal operation of the drainage monitoring system.

According to the invention, data information is acquired through the drainage control assembly and the pavement integration device, the condition that all equipment is installed in a drainage well to cause damage of the equipment and difficult maintenance is avoided, and meanwhile, the drainage well and the drainage pipeline are monitored, so that the water level condition in the next time period can be predicted, so that a manager can drain water in advance according to the predicted water level, and the condition that waterlogging is caused by pavement water accumulation is avoided.

Further, referring to fig. 4, in the method for monitoring drainage of the present invention based on the first embodiment of the present invention, the present invention provides a second embodiment, and the step S30 includes:

step S40, controlling the data control device to judge whether a preset drainage condition is met according to the data information and the road surface data information;

step S50, if the preset drainage condition is met, controlling the execution equipment to drain water;

if the preset drainage condition is not met, no treatment is carried out.

The step S30 further includes the steps of:

and receiving a drainage instruction sent by a user, and controlling the drainage control assembly to perform drainage operation.

In the embodiment, the execution equipment in the drainage control assembly is controlled to receive the drainage command and execute the drainage operation by judging whether the preset drainage condition is met, so that automatic drainage is realized, and the occurrence of an accident condition during unmanned monitoring is avoided; the drainage control assembly is controlled to drain by receiving a drainage instruction sent by a user, the drainage control assembly comprises an execution device, and the drainage operation is performed by controlling the execution device, so that the condition that the system cannot automatically drain under the condition that special conditions need drainage is prevented, and the intellectualization of the drainage monitoring system is improved.

Further, referring to fig. 5, in the drainage monitoring method according to the present invention as set forth in the first embodiment of the present invention, the third embodiment of the present invention is further provided, before the step of receiving a drainage instruction sent by a user and controlling the drainage control module to perform a drainage operation, the method further includes:

step S601, controlling the data control device to verify the authority information of the login user and confirm the authority level of the user;

step S602, controlling the data control device to open the function corresponding to the user authority level to the user according to the authority level;

in this embodiment, the authority level of the user may be divided into two levels according to the identity of the user, where the two levels are: a management level and a user level, to which all control functions can be opened by the management level; the user level may have control functions open to it, such as controlling drainage, viewing monitoring data, etc. The technical personnel in the field can set different authority levels corresponding to the control functions with different degrees according to actual needs so as to set different authorities according to different users. The permission levels are set so as to meet the requirements of operation management of different users, maintenance of different users and the like, and the drainage monitoring system can serve different clients.

In another embodiment, the step S10 is preceded by:

detecting whether the drainage control assembly and the road surface integrated device normally operate or not according to a preset detection frequency;

if yes, controlling the data control device to generate a normal operation detection record, wherein the normal operation detection record comprises dynamic service data such as routing inspection, maintenance and the like in normal operation;

in this embodiment, the inspection service data is the working service parameters of each device when the drainage control assembly and the road surface integrated device are inspected according to a preset detection frequency, and the maintenance service data is the working service parameters and the maintenance records of each device when the drainage control assembly and the road surface integrated device are maintained according to the preset detection frequency.

If not, controlling the data control device to send an alarm and generate the abnormal operation detection record, wherein the normal operation detection record comprises dynamic service data such as inspection, maintenance and the like in abnormal operation.

In this embodiment, the preset detection frequency may be 12 h/time, 24 h/time or 48 h/time, the normal operation condition, that is, the condition that the drainage well or the drainage pipeline is not blocked, and the detection device and the road surface integration device are not damaged, and the detection device detects the frequency through the facilities to detect whether the device can normally work, so that the working condition of the device is ensured, and the safety in the drainage process is improved.

The invention also proposes a computer-readable storage medium on which a computer program is stored. The computer readable storage medium may be the Memory 02 of the drainage monitoring system of fig. 1, and may also be at least one of a ROM (Read-Only Memory)/RAM (Random Access Memory), a magnetic disk, and an optical disk, and the computer readable storage medium includes several pieces of information for enabling the drainage monitoring system to perform the method according to the embodiments of the present invention.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A drainage monitoring system, comprising: the system comprises a data control device, a road surface integrated device and a drainage control assembly, wherein the data control device, the road surface integrated device and the drainage control assembly are sequentially in communication connection;

the drainage control assembly is arranged in a drainage pipeline and a drainage well, and comprises a plurality of monitoring devices and executing devices, wherein the monitoring devices are used for acquiring and monitoring data information in the drainage pipeline, and the executing devices are used for receiving a preset drainage command and executing drainage operation;

the road surface integration device comprises a plurality of extensible Internet of things devices, and the extensible Internet of things devices are used for transmitting data information acquired by the monitoring devices and providing electric energy for the monitoring devices and the data control devices;

the data control device is used for receiving the data information collected by the drainage control assembly and managing and applying the data information.

2. The drainage monitoring system of claim 1 wherein the monitoring device is configured to collect and monitor parameters of water quality, liquid level, flow rate, and gas changes in drainage pipelines and drainage wells.

3. The drainage monitoring system of claim 2, wherein the monitoring device comprises one or more of a liquid level meter, a flow rate meter, a water quality monitor, and a gas monitor.

4. The drainage monitoring system of claim 1, wherein the roadway integration apparatus comprises:

the rod body is arranged on one side of the road;

the road surface information acquisition unit, the communication unit and the power supply unit are all arranged on the rod body;

the road surface information acquisition unit is used for acquiring road surface information;

the communication unit is used for transmitting the road surface information to the data control device;

and the power supply unit is used for supplying power to the data control device and the drainage control assembly according to a preset power supply mode.

5. The drainage monitoring system of claim 1 wherein the data control device comprises a data access module, a data management module, a business application module, and a system management module;

the data access module is used for carrying out network protocol management on the drainage control assembly and the road surface integrated device and setting acquisition frequency;

the data management module is used for performing archive management, configuration management, monitoring data management and service data management on the drainage control assembly and the road surface integrated device;

the service application module is used for carrying out equipment positioning, alarm management and data analysis on the drainage control assembly and the road surface integrated device;

the system management module is used for managing user authority, user authentication and operation monitoring of the drainage monitoring system.

6. A drainage monitoring method applied to the drainage monitoring system according to any one of claims 1 to 5, comprising the steps of:

controlling the monitoring equipment to collect data information of water quality, liquid level, flow velocity, flow and gas change according to a preset collection frequency, and sending the data information to the data control device;

controlling the pavement integration device to collect pavement data information according to a preset collection frequency, and sending the pavement data information to the data control device;

and controlling the data control device to control the execution equipment to drain water according to the data information and the road surface data information.

7. The drainage monitoring method according to claim 6, wherein the step of controlling the data control device to control the execution apparatus to drain water based on the data information and the road surface data information includes:

controlling the data control device to judge whether a preset drainage condition is met or not according to the data information and the pavement data information;

and if the preset drainage condition is met, controlling the execution equipment to perform drainage operation.

8. The drainage monitoring method of claim 6, wherein the step of controlling the data control device to control the execution apparatus to drain water based on the data information and the road surface data information further comprises:

and receiving a drainage instruction sent by a user, and controlling the drainage control assembly to perform drainage operation.

9. The drainage monitoring method of claim 8, wherein the step of receiving a drainage command from a user and controlling the drainage control module to perform a drainage operation is preceded by the step of:

the control data control device verifies the authority information of the login user and confirms the authority level of the user;

and controlling the data control device to open the function corresponding to the user permission level to the user according to the permission level.

10. A computer-readable storage medium, characterized in that a computer program is stored thereon, which computer program, when being executed by a processor, carries out the steps of the drainage monitoring method according to any one of claims 6 to 9.

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