CN109657743B

CN109657743B - Data processing method and system for drainage facility

Info

Publication number: CN109657743B
Application number: CN201811308109.6A
Authority: CN
Inventors: 郭彦娟; 陈强; 卢志祥; 曾水根; 罗港; 李慧峰
Original assignee: Guangzhou City Investment Environmental Energy Investment Management Co Ltd; Guangzhou Water Information Technology Support Center
Current assignee: Guangzhou City Investment Environmental Energy Investment Management Co Ltd; Guangzhou Water Information Technology Support Center
Priority date: 2018-11-05
Filing date: 2018-11-05
Publication date: 2020-03-17
Anticipated expiration: 2038-11-05
Also published as: CN109657743A

Abstract

The invention relates to a data processing method and system for a drainage facility, a computer device and a computer storage medium. The data processing method of the drainage facility comprises the following steps: the method comprises the steps that a communication connection between a client and a server is established according to a detected login event of the client; the client runs on a terminal; reading facility state information and a state identifier input by a first-line user aiming at a drainage facility at the current inspection position, and sending the facility state information, the state identifier and the current inspection position to a server; the server generates processing indication information according to the facility state information and the state identifier, searches a processing user according to the facility state information and the inspection position, and sends the processing indication information to the processing user; and receiving the processing indication information fed back by the server by logging in the client of the processing user. The invention can improve the processing efficiency of corresponding data processing aiming at the drainage facility.

Description

Data processing method and system for drainage facility

Technical Field

The invention relates to the technical field of intelligent signal processing, in particular to a data processing method and system for a drainage facility, computer equipment and a computer storage medium.

Background

Various drainage systems such as urban drainage systems and the like enable sewage and rainwater in the areas to be smoothly drained, sewage can be treated well, the requirement of environmental protection is met, and maintenance and management of the drainage systems are very important for development of the areas. The drainage system comprises various drainage facilities, and data such as overhaul, fault and problem corresponding to the drainage facilities are processed correspondingly in time, so that the efficient operation of the drainage system is guaranteed, and convenience is brought to the life of people. The traditional scheme needs the manual work to carry out the conveying of drainage facility data, will patrol and examine the drainage facility data that a ray of personnel such as worker gathered and send to relevant management platform after arranging and carry out data processing, leads to easily that the response speed to the drainage facility data that a ray of personnel gathered is slow, and the treatment effeciency is low.

Disclosure of Invention

Based on this, it is necessary to provide a data processing method and system, a computer device, and a computer storage medium for a drainage facility, aiming at the technical problems that the conventional scheme easily causes slow response speed to the drainage facility data and low processing efficiency.

A data processing method of a drainage facility, comprising:

the method comprises the steps that a communication connection between a client and a server is established according to a detected login event of the client; the client runs on a terminal;

reading facility state information and a state identifier input by a first-line user aiming at a drainage facility at the current inspection position, and sending the facility state information, the state identifier and the current inspection position to a server; the server generates processing indication information according to the facility state information and the state identifier, searches a processing user according to the facility state information and the inspection position, and sends the processing indication information to the processing user;

and receiving the processing indication information fed back by the server by logging in the client of the processing user.

In one embodiment, after the process of reading the facility state information and the state identifier input by the line user for the drainage facility at the current patrol location and sending the facility state information, the state identifier and the current patrol location to the server, the method further comprises the following steps:

recording the facility position and facility inspection information of the drainage facility inspected by a first-line user in a first set time period;

and generating patrol record data according to the facility patrol information, and displaying patrol tracks on a pre-stored map according to the facility position.

As an embodiment, after the process of generating the patrol inspection record data according to the facility patrol inspection information and displaying the patrol inspection track on the pre-stored map according to the facility location, the method further includes:

and displaying facility inspection information of the drainage facility at the facility position at each facility position of the map.

In one embodiment, the detected login event of the client is further followed by a process of establishing a communication connection between the client and the server, and the process further includes:

and reading the check-in information and the check-in position of the first-line user, and sending the check-in information and the check-in position to a server.

In one embodiment, after the process of receiving the processing indication information fed back by the server by logging in the client of the processing user, the method further includes:

and reading processing confirmation information input by a processing user after processing the drainage facility according to the processing instruction information, and sending the processing confirmation information to a server.

A data processing method of a drainage facility, comprising:

receiving an inspection position sent by a terminal, facility state information of a drainage facility at the inspection position and a state identifier corresponding to the facility state information;

generating processing indication information according to the facility state information and the state identifier, and searching a processing user corresponding to the drainage facility according to the facility state information and the inspection position;

and sending the processing indication information to a client for logging in the processing user.

In one embodiment, after the process of receiving the patrol location sent by the terminal, the facility state information of the drainage facility at the patrol location, and the state identifier corresponding to the facility state information, the method further includes:

and storing the facility state information and the state identifier into a set storage space, reading an inquiry identifier input by a management user, and searching the facility state information and the state identifier matched with the inquiry identifier in the storage space.

In one embodiment, the data processing method of the drainage facility further includes:

identifying each one-line user account logged in from a terminal, respectively identifying the account attribute of each one-line user account, and configuring the account authority of the one-line user account according to the account attribute.

receiving processing confirmation information sent by a terminal, searching facility state information matched with the processing confirmation information in the storage space, and modifying a state identifier corresponding to the searched facility state information;

and generating a facility processing record according to the processing confirmation information received in the second set time period.

A data processing system for a drainage facility, comprising:

the first detection module is used for detecting a login event of a client and establishing communication connection between the client and a server; the client runs on a terminal;

the first reading module is used for reading facility state information and state identification input by a first-line user aiming at the drainage facility at the current inspection position and sending the facility state information, the state identification and the current inspection position to the server; the server generates processing indication information according to the facility state information and the state identifier, searches a processing user according to the facility state information and the inspection position, and sends the processing indication information to the processing user;

and the first receiving module is used for receiving the processing indication information fed back by the server by logging in the client of the processing user.

A data processing system for a drainage facility, comprising:

the second receiving module is used for receiving the inspection position sent by the terminal, the facility state information of the drainage facility at the inspection position and the state identifier corresponding to the facility state information;

the first generation module is used for generating processing indication information according to the facility state information and the state identifier and searching a processing user corresponding to the drainage facility according to the facility state information and the inspection position;

and the sending module is used for sending the processing instruction information to a client which logs in the processing user.

A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the method of data processing of a drainage facility as provided in any of the above embodiments when executing the computer program.

A computer storage medium having a computer program stored thereon, wherein the program, when executed by a processor, implements the data processing method of a drainage facility provided in any of the above embodiments.

One of the above technical solutions has the following advantages or beneficial effects: the first-line user can log in a client running on the terminal, and sends information such as facility state information, state identification, inspection position and the like of the drainage facility at the current inspection position to the server, so that the server can generate processing indication information according to the facility state information and the state identification, a first-line user near the drainage facility to be processed is searched according to the facility state information and the inspection position, the processing user is determined, and the processing indication information is sent to the processing user, so that the client logging in the processing user can timely receive the processing indication information fed back by the server and perform corresponding processing, the response speed of the server to the facility state information of the drainage facility is improved, and the processing efficiency of corresponding processing for the drainage facility can also be improved.

Drawings

FIG. 1 is a schematic diagram of an application environment of a data processing method of a drainage facility according to an embodiment;

FIG. 2 is a flow diagram of a data processing method of a drainage facility according to one embodiment;

FIG. 3 is a schematic diagram of a terminal and server connection according to an embodiment;

FIG. 4 is a flow diagram of a data processing method of a drainage facility according to an embodiment;

FIG. 5 is a flow diagram of a method for managing a problem with a drain facility, according to an embodiment;

FIG. 6 is a schematic diagram of a data processing system of a drainage facility according to an embodiment;

FIG. 7 is a schematic diagram of a data processing system of a drainage facility according to an embodiment;

FIG. 8 is a computer system block diagram of one embodiment.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the detailed description and specific examples, while indicating the scope of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.

It should be noted that the terms "first \ second \ third" related to the embodiments of the present invention only distinguish similar objects, and do not represent a specific ordering for the objects, and it should be understood that "first \ second \ third" may exchange a specific order or sequence when allowed. It should be understood that the terms first, second, and third, as used herein, are interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in other sequences than those illustrated or otherwise described herein.

The terms "comprises" and "comprising," and any variations thereof, of embodiments of the present invention are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or modules is not limited to the listed steps or modules but may alternatively include other steps or modules not listed or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

Reference herein to "a plurality" means two or more. "and/or" describes the association relationship of the associated objects, meaning that there may be three relationships, e.g., a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

The data processing method of the drainage facility provided by the application can be applied to the application environment shown in fig. 1, and the architecture design of the system adopts a five-horizontal two-vertical architecture, wherein the five-horizontal architecture comprises a network resource layer, a data layer, an application support layer, a business application layer and a service layer, and the two-vertical architecture comprises a safety guarantee system and a standard specification system. The interactive logic and positional relationship of the layers are shown in fig. 1.

The supporting layer comprises basic hardware equipment, guarantees the stability, the usability and the expandability of the geographic information public platform from the aspects of basic hardware, basic software and the like, and provides support for the whole system. The network transmission layer can comprise wireless networks such as a 4G network used by a mobile APP terminal, the network can be supported by operators such as China Mobile, telecom, Unicom and the like, and a PC terminal (server terminal) network can be based on an original wired network of a bidding organization. The data resource layer (the data layer shown in fig. 1) indicates the source of the data, including the storage content, organization and storage mechanism of various types of data in the database. The latest mainstream database software is selected for data storage; the storage mode can adopt the combination of a file system and database software to meet different storage requirements of basic space data, files and multimedia; the data content mainly comprises basic geographic data, drainage facility data, environmental protection data, service data, accessory data and the like. The service application layer (the application layer shown in fig. 1) comprises a drainage facility inspection system client (such as an APP), a drainage facility inspection system PC end, a drainage facility inspection system database and a dynamic update end. The user layer, which reflects the graphical user interface and all display logic, is the client part of the application, which is responsible for interacting with the user. In the system, the user layer can comprise a main frame of a development project (first-stage) platform of a basic module platform of the intelligent water affair-drainage system by the steps of drainage facility inspection, problem reporting, database building, dynamic updating, layering, classification and mutual coordination. The security system (the security system shown in fig. 1) relates to the security of the above layers, and needs to establish a security support environment and a security management system. The standard specification system mainly refers to standard specifications and technical standard specifications of data to be built and followed.

Referring to fig. 2, fig. 2 is a flowchart of a data processing method of a drainage facility according to an embodiment, including:

s11, detecting the login event of the client, and establishing the communication connection between the client and the server; the client runs on a terminal;

the terminal can be an intelligent processing device held by a line user, and one or a group of line users can be provided with the terminal. The first-line users can comprise users who perform patrol and overhaul work on the site of the drainage system, such as patrol and examine users, facility maintenance users and overhaul users. The first-line user inputs a user account and a corresponding account password corresponding to the first-line user or the group of first-line users to the client running on the terminal, and at the moment, the terminal can detect a login event of the client and establish communication between the client of the logged-in user account and the server. The client running on the terminal includes a common client such as an app (computer application program) client and/or a web page client. Referring to fig. 3, the server may be connected to a plurality of terminals through a mobile wireless network, a telecommunication wireless network, a public wireless network, and the like, and may specifically communicate with the clients running on the terminals.

S12, reading facility state information and state identification input by a first-line user aiming at the drainage facility at the current inspection position, and sending the facility state information, the state identification and the current inspection position to a server; the server generates processing indication information according to the facility state information and the state identifier, searches a processing user according to the facility state information and the inspection position, and sends the processing indication information to the processing user;

the facility state information may include facility overhaul information, facility add information, facility delete information, facility operation information, facility fault information, and the like corresponding to the corresponding drainage facility; the facility status information may also carry a corresponding drain identifier, such that the server may receive the facility status information or for which drain it is. The facility state information may include data, such as text and/or pictures, that can represent the state of the facility, and the pictures may be compressed accordingly (e.g., to within 500K) to ensure transmission efficiency and transmission stability. Each piece of facility state information has a corresponding state identifier, the state identifiers are used for representing the type and the state of the corresponding piece of facility state information, for example, the state identifier of the piece of facility fault information may be that a fault is processed or that the fault is not processed, and the state identifier of the piece of facility add-on information may be that the fault is added or not added. After acquiring the facility state information of a certain drainage facility, a front-line user such as an inspection user can set the state identifier of the facility state information according to the specific state of the drainage facility, input the facility state information and the state identifier thereof into the logged-in client, and send the logged-in client to the server through the client.

The terminal sends the facility state information, the state identifier and the current inspection position to the server, so that the server can acquire the facility state information of each drainage facility in inspection and the state identifier of each facility state information, and can also acquire the inspection position of the user of each handheld terminal. When the server generates processing indication information such as fault processing, facility checking and the like of a certain drainage facility according to the facility state information and the state identifier, a first-line user at the drainage facility or near the drainage facility can be searched, the searched first-line user is determined as a processing user, the processing indication information is sent to a client end logging in the processing user, and a terminal operating the client end is enabled to receive the processing indication information fed back by the server. Specifically, the first-line user further has a corresponding station identifier, and the station identifier may include representations of station characteristics of the first-line user, such as a patrol identifier, an overhaul identifier, and a maintenance identifier. The server can also record station identifiers of all first-line users, search the processing users according to the facility state information, the inspection position and the station identifiers of the first-line users, search the processing users for processing the processing indication information of the corresponding drainage facility, and enable the searched and determined processing users to be station personnel matched with the processing indication information so as to ensure the effectiveness of corresponding processing according to the processing indication information.

And S13, receiving the processing instruction information fed back by the server by logging in the client of the processing user.

In the above steps, the terminal may receive the processing instruction information through a client of the login processing user, and output the processing instruction information through display or voice broadcast, so that the corresponding processing user can timely obtain the processing instruction information, perform corresponding processing, and ensure processing efficiency.

In the data processing method for the drainage facility provided by this embodiment, a first-line user may log in a client running on a terminal, send facility state information, a state identifier, and an inspection position of the drainage facility at a current inspection position to a server, so that the server may generate processing instruction information according to the facility state information and the state identifier, search a first-line user near the drainage facility to be processed according to the facility state information and the inspection position, determine a processing user, and send the processing instruction information to the processing user, so that the client logging in the processing user may receive the processing instruction information fed back by the server in time to perform corresponding processing, thereby increasing a response speed of the server to the facility state information of the drainage facility, and further increasing processing efficiency of corresponding processing for the drainage facility.

In one embodiment, after the process of reading the facility state information and the state identifier input by the line user for the drainage facility at the current patrol location and transmitting the facility state information, the state identifier and the current patrol location to the server, the method further comprises the following steps:

The facility inspection information may include facility operation information, facility processing information, and other information that can characterize the operation characteristics and maintenance characteristics of the drainage facility. The first set time period may be determined according to a time length of one-time drainage facility inspection, for example, set to be the same day or half day of the current inspection, and the like. And if the first set time interval is the day of the current inspection, the inspection record data generated according to the facility inspection information is inspection log data.

According to the embodiment, the patrol inspection recorded data and the patrol inspection track of a line user in the first set time period can be acquired through the terminal, and the efficiency of acquiring the patrol inspection recorded data and the patrol inspection track is improved.

In one embodiment, the detected login event of the client is further followed by the process of establishing the communication connection between the client and the server, and the process further includes:

The embodiment can send the sign-in information and the current sign-in position of the first-line user on the terminal client to the server, so that the server can acquire the current online first-line user information, timely pushing after the processing indication information corresponding to the drainage facility is generated is facilitated, and the data response efficiency of the drainage facility is further ensured.

As an embodiment, the terminals can also communicate with each other to obtain check-in information and check-in positions of inspection personnel at each terminal, so that the server or any one terminal can count client installation rates of apps and the like of line personnel (line users), can count reporting conditions of drainage facility data (such as facility state information) according to regions, can count reporting conditions of each region according to time regions, and can count the personnel logged in and checked in by the client.

In this embodiment, the processing user inputs processing confirmation information to the terminal client after processing the drainage facility according to the processing instruction information, so that the terminal sends the processing confirmation information to the server, so that the server can know the processing state of the drainage facility in time, thereby facilitating maintenance of smooth operation of the drainage facility and ensuring safety of a corresponding drainage system in a working process.

As an embodiment, the client running in the terminal may also display information such as news dynamics, notification announcement, experience exchange, policy and regulation, red and black lists, operation needs and the like of the drainage system, so that a front-line user can timely know various information of the drainage system. The terminal can also display a facility state information list of the report sub-server in a first set time period, can also acquire search conditions such as state identification or information types input by a front-line user, and can screen matched facility state information according to the search conditions and display the matched facility state information correspondingly.

As an embodiment, when the wireless network communication state is poor, the terminal may perform classification preprocessing on information (such as facility state information, state identifiers, and the like) that needs to be sent to the server, and may adopt a mature and advanced data caching technology for relatively stable data resources, which may greatly increase the processing speed, such as layer tiles, picture caching, address indexing, and the like. For the problems that the client can not be submitted online, such as network disconnection, discontinuous field work, long confirmation time span and the like, local draft storage can be adopted, and the client can submit the information when the conditions are mature, so that the continuity and convenience of the work are ensured.

Optionally, the client operating in the terminal may also display the reported facility data information list, search various information according to the screening condition, and check details, circulation, and auditing processes of each information.

Referring to fig. 4, fig. 4 is a flowchart of a data processing method of a drainage facility according to an embodiment, including:

s21, receiving the inspection position sent by the terminal, the facility state information of the drainage facility at the inspection position and the state identification corresponding to the facility state information;

referring to fig. 3, the server may be connected to a plurality of terminals through a mobile wireless network, a telecommunication wireless network, a public wireless network, and the like, and may specifically communicate with the inspection personnel corresponding to each terminal. The server can be a computer with an intelligent data processing function, and can be arranged in a place where various information management of the drainage system is carried out by management personnel such as a management scheduling room of the drainage system.

When the first-line user inspects the drainage facility, the current inspection position, the facility state information of the drainage facility at the inspection position and the state identifier corresponding to the facility state information are sent to the server, so that the server can acquire the relevant state information of the drainage facility and the first-line user information attached to the relevant state information in time. The facility state information may include facility overhaul information, facility add information, facility delete information, facility operation information, facility fault information, and the like corresponding to the corresponding drainage facility; the facility status information may also carry a corresponding drain identifier, such that the server may receive the facility status information or for which drain it is. The facility state information may include data, such as text and/or pictures, that can represent the state of the facility, and the pictures may be compressed accordingly (e.g., to within 500K) to ensure transmission efficiency and transmission stability. If the facility status information includes a picture, the facility status information may include a plurality of pictures such as a top view, a plan view, and a direction map. Each piece of facility state information has a corresponding state identifier, the state identifiers are used for representing the type and the state of the corresponding piece of facility state information, for example, the state identifier of the piece of facility fault information may be that a fault is processed or that the fault is not processed, and the state identifier of the piece of facility add-on information may be that the fault is added or not added.

S22, generating processing instruction information according to the facility state information and the state identification, and searching a processing user corresponding to the drainage facility according to the facility state information and the inspection position;

the server generates processing indication information of a certain drainage facility according to the facility state information and the state identifier, and specifically, when receiving the facility adding information and the state identifier which are not added and transmitted by the terminal, the server can generate the processing indication information for adding the drainage facility at the corresponding inspection position; when the server receives the facility extension information sent by the terminal and the extended state identifier, the server can generate processing indication information for confirming the extension condition of the drainage facility at the corresponding inspection position; or the server can generate processing instruction information for maintaining the drainage facility adding condition at the corresponding inspection position when receiving the facility fault information and the unprocessed state identifier sent by the terminal; after the processing instruction information is generated, the server can search a first-line user at the drainage facility or near the drainage facility, and determine the searched first-line user as a processing user, so as to ensure the timeliness of corresponding processing performed after the subsequent processing user knows the processing instruction information.

Specifically, the first-line user further has a corresponding station identifier, and the station identifier may include a patrol identifier, an overhaul identifier, a maintenance identifier, and other representations representing station characteristics of the first-line user. The server can also record station identifiers of all first-line users, search the processing users according to the facility state information, the inspection position and the station identifiers of the first-line users, search the processing users for processing the processing indication information of the corresponding drainage facility, and enable the searched and determined processing users to be station personnel matched with the processing indication information so as to ensure the effectiveness of corresponding processing according to the processing indication information.

And S23, sending the processing instruction information to the client logged in the processing user.

The server sends the processing indication information to the client which logs in the processing user, so that the terminal which operates the client receives the processing indication information fed back by the server and outputs the processing indication information in a display or voice broadcast mode, and the like, so that the corresponding first-line user can timely know the processing indication information and perform corresponding processing, and the processing efficiency is ensured.

In the data processing method for the drainage facility, the server may receive the inspection position sent by the terminal, the facility state information of the drainage facility at the inspection position, and the state identifier corresponding to the facility state information, generate the processing instruction information of the drainage facility at the inspection position, search for the processing user near the drainage facility, and send the processing instruction information to the client logged in the processing user, so that the processing user near the drainage facility can timely obtain the processing instruction information and perform corresponding processing, thereby ensuring the processing efficiency of the facility state information of the drainage facility.

The query identifier may include a drainage facility identifier or a status identifier, the query identifier is input to a specific query entry in the server, the server may search for facility status information and status identifier matching the query identifier in its storage space, for example, the server may input a drainage facility to the server, may search for each facility status information of the a drainage facility and a status identifier corresponding to the facility status information, input a certain status identifier to the server, and may search for each facility status information having the status identifier in the storage space.

In the embodiment, the associated user can input the query identifier to the server to query the required information, so that the convenience of acquiring various information of the drainage system is improved.

As an embodiment, the server may also implement that managers in each area query newly-added and checked facility data of the reporting type, provide multiple query conditions, screen out data required by the user, or check statistical information of data reporting, repeated reporting, data deletion, and the like, and may also check reported facility data and distribution on a preset map GIS. The server can also display each current inspection position on the map GIS so as to obtain the distribution of the current inspection positions; and (3) the management personnel in each area can select the map in various modes through the map GIS, inquire facility information in the range and check the analysis of topology, cross sections, longitudinal sections and the like of the official website.

After the server sets the account authority of the first-line user account, the server can also push drainage system management information such as facility configuration information, routing inspection personnel scheduling information and the like matched with the account authority of the first-line user account to the client logging in the first-line user account, so that each inspection personnel can timely and efficiently acquire required information.

As an embodiment, the server may further perform editing management on the authority range, so that each region manager can edit information such as the authority of other business owners, and may further generate icons, allow the entered data to be modified and deleted, and the like, so as to ensure the validity of the data in the server. The server can perform feedback and audit management on the stored data, so that data feedback of the data passing the audit by each region manager and auditor is realized, and the auditor can inquire out related records and perform audit according to conditions.

The second set time period may be determined according to a time length of the one-time drainage facility inspection, for example, set to be the same day or half day of the current inspection, and the like. If the first set time interval is the day of the current inspection, the facility processing record generated according to the processing confirmation information can be a facility processing log. After receiving the processing confirmation information received in the second set time period, the server can also generate facility handling management, which is used for managers to screen data of specified reporting units and specified problem types (including major categories and minor categories), select data in the data completely or in specified manner to handle problems, generate a handling list, and export the handling list.

In this embodiment, the server may generate the facility processing record according to the processing confirmation information received within the second set time period, so that the management user may obtain the facility processing information according to the facility processing record, and convenience of the management user in obtaining the facility processing information is ensured.

As an embodiment, the server can realize that managers in various regions can check the polling and maintenance log lists in a classified manner, check the details of the polling and maintenance logs, position the polling and maintenance logs in a GIS (geographic information system) map and the like. The server can also be used for realizing the management of users, roles, role permissions, APP client configuration and the like, and can also realize instant messaging configuration and data backup, thereby realizing the stable and effective maintenance of the system. The server can also realize editing and releasing of the content of the special column and audit management of the newly added content of the special column.

As an embodiment, in the practical application process of the data processing method for the drainage facility, a terminal held by an inspector can be a mobile phone, an APP client is operated on the mobile phone, a corresponding drainage facility inspection system is designed and developed based on an M/S and B/S integrated architecture according to the data processing method for the drainage facility, and the mobile inspection system based on the M/S can include the following functions:

data reporting-checking: the problems of position error, attribute error, absence of facilities, type error and the like of the existing drainage facility data (inspection wells, rainwater mouths and discharge ports) are identified and corrected, mobile end storage is realized, the existing drainage facility data are submitted to a server, a facility data check list can be checked, and detailed records and positioning can be carried out.

Data reporting-newly adding: the method and the system realize the identification report of the drainage facility data which does not exist on the graph but actually exists, realize the storage of the mobile terminal, submit the drainage facility data to the server terminal, and check the facility data error correction list, record and position in detail.

The data is newly increased to realize the newly-increased of the data that has the drainage facility to the map no drainage facility actual position on APP, and the data is checked and is realized the rechecking to the drainage facility data that map and actual position all have on APP, and the detailed description is as follows:

the first step is as follows: if the data is newly added, the map selects the drainage facility position.

After GPS positioning is started, a newly added button is clicked, an APP interface appears an 'added' icon, and a specific position can be positioned through a positioning function of the APP;

if the position is found to be deviated from the actual position, moving the APP map to the actual newly added position by one hand;

after the position is confirmed to be correct, the APP can display detailed text information of the current position and click a confirmation button.

The second step is that: and taking a picture and filling in attribute information.

The APP displays a detailed interface with newly-increased data, firstly, photos of the drainage facility are added, at least three photos are required to be taken and uploaded, the three photos respectively comprise a top view, a flat view and a square map, and at most nine photos can be taken and uploaded;

and sequentially filling or selecting information such as facility types, inspection well types, rain and sewage categories, well lid materials, ownership units, registered numbers, management states, facility problems, reporting descriptions and the like, and clicking a submit button to complete data addition after the confirmation of no errors.

The third step: and if the data is checked, selecting the drainage facility needing checking on the map.

Data repair test-repair: the device realizes the correction of the position, the attribute and the topological structure of the existing inspection well, rainwater inlet, discharge outlet, drainage pipeline, drainage ditch, pump station and other facility data, realizes the storage of a mobile terminal, submits the data to a server terminal, and can check a facility data correction list, record and position in detail.

Data repair test-new addition: the reporting of the position, the attribute and the topological structure of the facility data such as the inspection well, the rainwater inlet, the discharge outlet, the drainage pipeline, the drainage ditch, the pump station and the like which do not exist on the graph but actually exist is realized, the mobile terminal is realized to store the facility data and submit the facility data to the server terminal, and a new facility data adding list, a detailed record and a positioning can be checked.

Problem reporting and handling: reporting various problems of each type of drainage facility found in the inspection and maintenance processes, distributing tasks, recording processes and processing results, and rechecking and evaluating the processing results. The workflow mode is adopted for driving, the tasks are handled in different roles, the flow can be freely changed, the tasks can be handled by agency and change, and opinions and suggestions can be added in the handling process.

The flow of the method for managing the fault problem of the drainage facility can be shown by referring to fig. 5, wherein in fig. 5, the role definition comprises: r0 is district level drainage facility management department or maintenance company manager, R1 is inspection personnel, and R2 is facility maintenance personnel. As shown in fig. 5, the method for managing the fault problem includes:

the first step is as follows: and (4) reporting the problem, namely clicking a problem reporting button after the inspection personnel R1 finds that the drainage facility has the problem.

The APP interface can display a problem reporting information filling interface, the polling personnel can shoot and upload the problem-generating photos, and the system can compress each photo to be within 500K; sequentially filling the road, the facility type, the problem type, the emergency degree and the problem description;

the second step is that: if the self-processing is selected, the photo finished by the field processing is added and uploaded, and the problem reporting and processing is finished by submitting the problem. And if the self-selection processing is not performed, the third step is carried out.

The third step: and selecting the next link handler. If a city unit is selected, the system lists related personnel information R0 for processing the problem under the unit; if the district level unit is selected, the system lists the related personnel information R0 of the processing problem under each district;

if the short message is to be sent to a relevant person R0 who handles the problem, selecting 'sending the short message to inform the other party'; and finally, submitting the problem, namely finishing data reporting.

The fourth step: manager R0 distributes the questions.

The manager R0 selects the relevant maintenance units; the APP interface displays facility maintenance personnel in a maintenance unit; the manager selects a specific facility maintainer R2; if the short message is to be sent to a relevant person R0 who handles the problem, clicking to submit the short message;

the fifth step: facility maintenance personnel R2 deal with the problem on site.

After the facility maintenance personnel R2 finish the on-site problem processing, taking pictures on site and uploading the pictures; selecting the manager R0 in the fourth step by default; if the short message is to be sent to a relevant person R0 who handles the problem, clicking to submit the short message;

and a sixth step: r0 recheck.

If R0 goes to the on-site recheck, the on-site recheck is carried out, the picture is taken and uploaded, and the question is directly submitted to finish; if R0 selects R1 for rechecking, the system selects the patrol personnel R1 in the first step by default; if the short message is to be sent to a relevant person R0 who handles the problem, clicking to submit the short message;

the seventh step: r1 recheck. And R1 is rechecked on site, photographed and uploaded, and submitted to finish the problem directly.

And (5) disclosing the affairs. The reported data can be searched according to the classification of facility type, right unit, reporting time, etc., the reported problems can be searched according to the classification of problem type, right unit, reporting time, etc., the details can be checked, and the reported problems or facilities can be positioned in the map.

Routing inspection dynamic: and checking the latest 10-20 drainage facility problem reporting and data reporting records in a certain area (such as a certain city) and checking the details.

Polling log-newly added log: the system can record information such as facility objects, facility running states, maintenance contents, geographical positions, on-site photos and the like of on-site inspection and maintenance for inspection and maintenance personnel of drainage facilities, record the process of inspection and form logs.

Patrol log-log list: and displaying all the patrol log data generated in the patrol process of the patrol personnel. And can play the route of patrolling and examining of staff's during operation. When the patrol log is checked, the attribute information of the target facility can be checked by clicking the query button, and a specific target object and the like can be positioned.

Local draft-patrol problem draft: and the specific information of the routing inspection problem is temporarily stored.

Local draft-patrol log draft: and the specific information of the routing inspection log is temporarily stored.

A facility map: the method comprises the steps of displaying and checking facility distribution based on a GIS map, inquiring facility attributes, paying attention to facility and positioning facility problems, recording detailed information such as facility maintenance results and the like, counting and displaying various types of reported data based on the map, reporting facility data, repairing and testing the facility data and reporting problems based on a map entry, and switching base maps and checking legends. The map can be enlarged, reduced and translated, the distance and the area can be measured, the base map can be switched according to requirements, the display and the closing of each map service can be controlled, the transparency of the service can be set, the space superposition analysis and the buffer area analysis are supported, and the classified statistics and the display of facility and problem data based on the map can be realized.

Statistical analysis and check-in statistics: the management departments, the maintenance units and the users of drainage at all levels of the whole city can clearly and visually check the app installation rate of front-line personnel, the app installation rate of management personnel, the reporting condition of facility data of each region, the reporting condition of each region at different time and the app login and sign-in statistical information through various chart statistical functions.

Instant messaging-session management: the session function supports a plurality of session group chatting, and effectively improves user viscosity. And the system also supports multi-message type chat and communication, including characters, pictures, voice, dynamic expression messages and the like, supports voice chat and video chat, and can click the head portrait of the user in the upper right corner or the chat frame, so that the detailed information of the user can be viewed.

Instant messaging-address book: the user personnel information of each relevant mechanism is stored, and the instant communication can be carried out with each personnel in the address list, including sending characters, pictures, voice, dynamic expression messages and the like, the voice chat and the video chat are also supported, relevant personnel or information can be searched according to the input appointed user name, mechanism and post, the instant communication can be carried out with the searched relevant personnel, and the like.

Instant messaging-workgroup: the method has the advantages that each user who installs the APP of the Guangzhou drainage facility inspection system can join a plurality of working groups, and after entering the working groups, the user can communicate with staff of the working groups in real time, wherein the communication comprises sending characters, pictures, voice, dynamic expression messages and the like, and voice chat, video chat and the like are supported.

Viewing in a special column: the display of news dynamics, statistical bulletin, experience exchange, policy and regulation, red and black lists, operation manuals and the like is realized, and the information of the news dynamics, the statistical bulletin, the experience exchange and the policy and regulation issued by drainage administrative departments and maintenance units at all levels of the whole city is checked through a special column; checking the red and black lists of the drainage facilities released by each level of drainage administrative departments and maintenance units in the whole city during routine work polling, and timely knowing the drainage facility conditions of each region to show the works or criticize the works; and provides the operating steps, methods, and points of attention for the functional modules in the system.

Transaction disclosure-problem reporting: the problem reporting information can be checked by displaying the list information of the problem reporting, so that the problem reporting information is beneficial to all levels of drainage administrative departments and maintenance units in the whole city to know the problems and data conditions of the drainage facilities in the whole city, and the arrangement of future daily work is convenient. The data meeting the condition can be searched according to the screening condition (such as region and facility type), and the selected data can display the details and the flow process of the problem reporting.

Transaction disclosure-data reporting: the user can switch and check the problem reporting information and the data reporting information in the transaction disclosure, which is beneficial for all levels of drainage administrative departments and maintenance units in the whole city to know the problems and the data conditions of the drainage facilities in the whole city and is convenient for the arrangement of the future daily work. And data meeting the conditions can be searched according to the screening conditions (such as regions, types and facility types), and the selected data can display the details of data reporting and the auditing process.

My module-my check-in: and providing a check-in function after the user logs in the app system.

My module-my track: and displaying the track of the working route of the user on a map.

My module-profile: the basic information for displaying the user, such as: head portrait, user name, phone call, user role, job title, etc.

My module-my data reporting: the method comprises the steps of displaying data reported by a current login user, providing a feedback function for approved data in a 'my data report' list, inputting feedback time, finishing conditions (selecting 'finishing', 'finishing', 'no finishing'), description and other information by a user, uploading a latest scene photo by using an APP, submitting completion, indicating that one feedback is finished, feeding back one approved data for multiple times, and not limiting the feedback times by a system. And the data meeting the conditions can be searched according to the screening conditions such as reporting time, facility types and the like.

My module-system settings: providing password modifications, current version numbers, etc

My module-legal statement: shows a legal statement to patrol the app application using a regional (e.g., Guangzhou) drainage facility.

The B/S-based background management system can comprise the following functions:

basic management functions of drainage facilities: the GIS-based drainage facility classification query (according to facility types) counts the number or length of various drainage facilities according to responsibility units, administrative divisions, basin ranges, user-defined ranges and the like, performs pipe network topology analysis, analyzes cross sections and longitudinal sections and the like, and lays a foundation for subsequent intelligent drainage application.

Data fault reporting and repairing measurement and management: and (3) sorting and checking the reported data and the repair test data list according to administrative divisions, responsibility units and reporting time periods, checking the distribution condition of the data report and the data repair test on a map, checking and positioning specific data report and data repair test information, and counting the data report and data repair test condition according to various dimensions.

Problem reporting and handling management: the method comprises the steps of checking a problem reporting and processing condition list according to administrative divisions, responsibility units and reporting time periods in a classified mode, checking the distribution condition of reported problems on a map, checking the details and the flow trend of the problems, positioning the specific problems in a GIS, and counting the problem reporting and handling conditions according to various dimensions.

And (3) routing inspection and maintenance log management: and (3) checking the polling and maintenance log lists according to administrative divisions, responsibility units and reporting time periods in a classified manner, checking the distribution condition of the recent polling and maintenance facilities on a map, checking the details of the polling and maintenance log, positioning in a GIS, and counting the polling and maintenance log conditions according to various dimensions.

And (3) routing inspection and maintenance personnel management: checking basic information of the polling and maintenance personnel, positioning the current polling and maintenance working position, and historically polling and maintaining working tracks, and counting the polling and maintenance personnel information according to various dimensions.

Data feedback: for the data passing the audit, the function of managing the reported information of the data history is realized through the function of 'feedback', and the feedback data of the well in the past can be checked.

Editing scope of ownership: the method realizes the surface range editing of the right types of other business owner, the urban village right management, the three-dimensional facilities and the like, generates a surface figure, and can input information such as the right unit, the maintenance range description, the pipe network length and the like.

Facility handing: the data of the appointed reporting unit and the appointed problem type (including the major class and the subclass) can be screened, the data can be selected completely or appointed to be selected for problem handling, a handling list is generated, and the handling list can be exported. The system needs to keep the delivery list generated each time and has the function of deleting the delivery list. After the submitted wells are rectified and modified by each reporting unit, if the pictures of the rectified and modified wells need to be uploaded, the PC terminal is used for finding the wells with corresponding numbers, and the ' submitting feedback ' button is used for uploading the related rectified and modified pictures after clicking each piece of data in the submitting list, and relevant information (feedback time, description, rectifying and modifying completion conditions (selecting ' rectifying and modifying ', ' rectifying and modifying is completed ', ' rectifying and modifying is not needed)), and recording people and recording time are defaulted. One piece of data can support multiple feedbacks.

Reporting comprehensive inquiry: the comprehensive inquiry and reporting comprehensive display inspection facility information can be inquired according to conditions of 'reporting number', 'reporter', 'reporting unit', 'facility type', 'audit state', 'audit suggestion', 'problem category', 'problem subclass', 'road where the problem is located', 'management state', 'start time' and 'end time', and meanwhile, the total number of reported problems, data increase, data confirmation, data error correction and unopened information can be checked. After inquiry, the information is displayed according to the identification code, the area, the department, the address, the well type, the well material, the inquiry number and the operation.

History routing track: the data uploaded by the mobile terminal is sorted, facility types, dates and the like are selected for inquiry, the display information includes patrolmen, report types, time, addresses, units and the like, and more information can be displayed through an operation column.

And (3) sign-in statistics: the attendance statistics is the attendance statistics when patrolling and examining the mobile terminal user, and is firstly classified and counted according to each region, and the statistical data is classified and counted according to the latest two-day conditions and is displayed by a histogram and a pie chart respectively. The specific front-line user can be queried in two ways, namely, by querying the date or querying the person. The records obtained by query are displayed to the administrator according to the name of the person who signs in, the region to which the person belongs, the sign-in time, the sign-in road and the sign-in position.

And (3) system verification: and logging in and logging out by using the account with the administrator authority.

And (3) system operation and maintenance management: the method is used for realizing the management of users, roles, role permissions, APP configuration and the like, and also realizing instant messaging configuration and data backup and realizing the stable and effective maintenance of the system;

and (3) special column management: editing the current content by the content editing of the special column; the special column content is released and specific information is selected to be released to the mobile terminal; the examination of the content of the special column is to examine the content of the special column.

And (3) personal data management: browsing and modifying personal information, such as modifying passwords, modifying personal phones, etc.

Workflow management: the functions of adding, releasing, modifying and the like of the workflow are realized, the running process is managed in a unified way through visual monitoring management, and the elements such as buttons, forms, pages and the like in the process are managed in a newly adding, deleting and the like through common page element management.

The data processing method of the drainage facility can realize the functions in the actual process, including: the method comprises the steps of quickly debugging and repairing mass drainage facility data based on a spatial analysis technology, professionally editing drainage facility data and correcting spatial topology based on mobile application, customizing visual drainage facility problem reporting and handling processes, utilizing a server side data caching technology and an APP side offline storage technology, and utilizing a facility geocoding and address matching technology.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a data processing system of a drainage facility according to an embodiment, including:

the first detection module 11 is configured to detect a login event of a client and establish a communication connection between the client and a server; the client runs on a terminal;

the first reading module 12 is configured to read facility state information and a state identifier, which are input by a front-end user for a drainage facility at a current inspection position, and send the facility state information, the state identifier and the current inspection position to a server; the server generates processing indication information according to the facility state information and the state identifier, searches a processing user according to the facility state information and the inspection position, and sends the processing indication information to the processing user;

a first receiving module 13, configured to receive, by logging in the client of the processing user, processing instruction information fed back by the server.

In one embodiment, the data processing system of the drainage facility may further include:

the system comprises a recording module, a judging module and a judging module, wherein the recording module is used for recording the facility position and facility inspection information of the drainage facility inspected by a first-line user in a first set time period;

and the first display module is used for generating polling record data according to the facility polling information and displaying a polling track on a prestored map according to the facility position.

As an embodiment, the data processing system of the drainage facility may further include:

and the second display module is used for displaying the facility routing inspection information of the drainage facility at the facility position at each facility position of the map.

and the second reading module is used for reading the check-in information and the check-in position of the first-line user and sending the check-in information and the check-in position to the server.

and the third reading module is used for reading processing confirmation information input by a processing user after processing the drainage facility according to the processing instruction information and sending the processing confirmation information to the server.

Referring to fig. 7, fig. 7 is a schematic structural diagram of a data processing system of a drainage facility according to an embodiment, including:

the second receiving module 21 is configured to receive an inspection position sent by a terminal, facility state information of a drainage facility at the inspection position, and a state identifier corresponding to the facility state information;

the first generation module 22 is used for generating processing instruction information according to the facility state information and the state identifier, and searching a processing user corresponding to the drainage facility according to the facility state information and the inspection position;

and the sending module 23 is configured to send the processing instruction information to the client that logs in the processing user.

and the storage module is used for storing the facility state information and the state identifier to a set storage space, reading a query identifier input by a management user, and searching the facility state information and the state identifier matched with the query identifier in the storage space.

the identification module is used for identifying each front-line user account logged in from the terminal, respectively identifying the account attribute of each front-line user account, and configuring the account authority of the front-line user account according to the account attribute.

the third receiving module is used for receiving processing confirmation information sent by the terminal, searching the facility state information matched with the processing confirmation information in the storage space, and modifying the state identifier corresponding to the searched facility state information;

and the second generation module is used for generating a facility processing record according to the processing confirmation information received in the second set time period.

FIG. 8 is a block diagram of a computer system 1000 upon which embodiments of the present invention may be implemented. The computer system 1000 is only one example of a suitable computing environment for the invention and is not intended to suggest any limitation as to the scope of use of the invention. Neither should the computer system 1000 be interpreted as having a dependency or requirement relating to a combination of one or more components of the exemplary computer system 1000 illustrated.

The computer system 1000 shown in FIG. 8 is one example of a computer system suitable for use with the invention. Other architectures with different subsystem configurations may also be used. Such as desktop computers, notebooks, and the like, as are well known to those of ordinary skill, may be suitable for use with some embodiments of the present invention. But are not limited to, the devices listed above.

As shown in fig. 8, the computer system 1000 includes a processor 1010, a memory 1020, and a system bus 1022. Various system components including the memory 1020 and the processor 1010 are connected to the system bus 1022. The processor 1010 is hardware for executing computer program instructions through basic arithmetic and logical operations in a computer system. Memory 1020 is a physical device used for temporarily or permanently storing computing programs or data (e.g., program state information). The system bus 1020 may be any of several types of bus structures including a memory bus or memory controller, a peripheral bus, and a local bus. The processor 1010 and the memory 1020 may be in data communication via a system bus 1022. Wherein memory 1020 includes Read Only Memory (ROM) or flash memory (neither shown), and Random Access Memory (RAM), which typically refers to main memory loaded with an operating system and application programs.

The computer system 1000 also includes a display interface 1030 (e.g., a graphics processing unit), a display device 1040 (e.g., a liquid crystal display), an audio interface 1050 (e.g., a sound card), and an audio device 1060 (e.g., speakers). The display device 1040 and the audio device 1060 may be used for output of relevant processing instruction information.

Computer system 1000 typically includes a storage device 1070. Storage device 1070 may be selected from a variety of computer readable media, which refers to any available media that may be accessed by computer system 1000, including both removable and non-removable media. For example, computer-readable media includes, but is not limited to, flash memory (micro SD cards), CD-ROM, Digital Versatile Disks (DVD) or other optical disk storage, magnetic cassettes, magnetic tape, magnetic disk storage or other magnetic storage devices, or any other medium which can be used to store the desired information and which can accessed by computer system 1000.

Computer system 1000 also includes input device 1080 and input interface 1090 (e.g., an IO controller). A user may enter commands and information into computer system 1000 through input device 1080, such as a keyboard, a mouse, a touch-panel device on display device 1040. Input device 1080 is typically connected to system bus 1022 through an input interface 1090, but may be connected by other interface and bus structures, such as a Universal Serial Bus (USB).

Computer system 1000 may logically connect with one or more network devices in a network environment. The network device may be a personal computer, a server, a router, a tablet, or other common network node. The computer system 1000 is connected to a network device through a Local Area Network (LAN) interface 1100 or a mobile communication unit 1110. A Local Area Network (LAN) refers to a computer network formed by interconnecting within a limited area, such as a home, a school, a computer lab, or an office building using a network medium. WiFi and twisted pair wiring ethernet are the two most commonly used technologies to build local area networks. WiFi is a technology that enables computer systems 1000 to exchange data between themselves or to connect to a wireless network via radio waves. The mobile communication unit 1110 is capable of making and receiving calls over a radio communication link while moving throughout a wide geographic area. In addition to telephony, the mobile communication unit 1110 also supports internet access in a 2G, 3G or 4G cellular communication system providing mobile data services.

It should be noted that other computer systems, including more or less subsystems than computer system 1000, can also be suitable for use with the invention. As described above in detail, the computer system 1000 adapted to the present invention can perform the designated operations of the data processing method of the drainage facility. The computer system 1000 performs these operations in the form of software instructions executed by the processor 1010 in a computer-readable medium. These software instructions may be read into memory 1020 from storage device 1070 or from another device via local network interface 1100. The software instructions stored in the memory 1020 cause the processor 1010 to perform the above-described method of data processing of a drain facility. Furthermore, the present invention can be implemented by hardware circuits or by a combination of hardware circuits and software instructions. Thus, implementations of the invention are not limited to any specific combination of hardware circuitry and software.

The data processing system of the drainage facility of the present invention corresponds to the data processing method of the drainage facility of the present invention one to one, and the technical features and the advantageous effects described in the embodiments of the data processing method of the drainage facility are applicable to the embodiments of the data processing system of the drainage facility.

Based on the examples described above, there is also provided in one embodiment a computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, wherein the processor when executing the program implements the data processing method of the water discharge facility as in any one of the above embodiments.

According to the computer equipment, the data processing efficiency of the drainage facility is improved through the computer program running on the processor.

It will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by a computer program, which may be stored in a non-volatile computer readable storage medium, and executed by at least one processor of a computer system, as in the embodiments of the present invention, to implement the processes of the embodiments including the data processing method of the above drainage facility. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

Accordingly, in an embodiment, there is also provided a computer storage medium having a computer program stored thereon, wherein the program, when executed by a processor, implements the data processing method of the drainage facility as in any one of the above embodiments.

The computer storage medium can improve the response speed of the server to the facility state information of the drainage facility and can also improve the processing efficiency of corresponding processing for the drainage facility through the stored computer program.

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

The above-mentioned embodiments only express several 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

1. A data processing method for a drainage facility, comprising:

reading facility state information and a state identifier input by a first-line user aiming at a drainage facility at the current inspection position, and sending the facility state information, the state identifier and the current inspection position to a server; the server generates processing indication information according to the facility state information and the state identifier, searches a processing user according to the facility state information and the inspection position, and sends the processing indication information to the processing user; before the step of sending the facility state information, the state identifier and the current patrol location to a server, the method further comprises the following steps: performing data check and data increase on the facility state information and the state identifier; the data checking comprises the following steps: identifying and correcting the problems of position error, attribute error, facility absence and type error of the existing drainage facility data; the data newly-adding comprises the following steps: storing the marks of the drainage facility data which are not stored on the pre-stored map but actually exist, and submitting the marks to the server; the state identification comprises: facilities are added or not added;

2. The method for processing the data of the drainage facility according to claim 1, wherein after the process of reading the facility state information and the state identifier input by the line user for the drainage facility at the current patrol position and transmitting the facility state information, the state identifier and the current patrol position to the server, the method further comprises:

3. The data processing method of a drainage facility according to claim 2, wherein the generating of the patrol record data according to the facility patrol information further includes, after the displaying of the patrol trace on a pre-stored map according to the facility location:

4. The data processing method of a drainage facility according to any one of claims 1 to 3, wherein the step of detecting the login event of the client and establishing the communication connection between the client and the server further comprises:

5. The data processing method of a drainage facility according to any one of claims 1 to 3, wherein the process of receiving the processing instruction information fed back by the server by logging in the client of the processing user further includes:

6. A data processing method for a drainage facility, comprising:

receiving an inspection position sent by a terminal, facility state information of a drainage facility at the inspection position and a state identifier corresponding to the facility state information; the facility state information and the state identification comprise facility state information and state identification after data check and data increase; the data checking comprises the following steps: identifying and correcting the problems of position error, attribute error, facility absence and type error of the existing drainage facility data; the data newly-adding comprises the following steps: storing the marks of the drainage facility data which are not stored on the pre-stored map but actually exist, and submitting the marks to a server; the state identification comprises: facilities are added or not added;

7. The method for processing the data of the drainage facility according to claim 6, wherein the receiving terminal sends the patrol position, the facility state information of the drainage facility at the patrol position, and the state identifier corresponding to the facility state information, and then further comprises:

8. The data processing method of a drainage facility according to claim 6, further comprising:

9. The data processing method of a drainage facility according to claim 6, further comprising:

receiving processing confirmation information sent by a terminal, searching facility state information matched with the processing confirmation information in a storage space, and modifying a state identifier corresponding to the searched facility state information;

10. A data processing system for a drainage facility, comprising:

the first reading module is used for reading facility state information and state identification input by a first-line user aiming at the drainage facility at the current inspection position and sending the facility state information, the state identification and the current inspection position to the server; the server generates processing indication information according to the facility state information and the state identifier, searches a processing user according to the facility state information and the inspection position, and sends the processing indication information to the processing user; and is also used for: performing data check and data increase on the facility state information and the state identifier; the data checking comprises the following steps: identifying and correcting the problems of position error, attribute error, facility absence and type error of the existing drainage facility data; the data newly-adding comprises the following steps: storing the marks of the drainage facility data which are not stored on the pre-stored map but actually exist, and submitting the marks to the server; the state identification comprises: facilities are added or not added;

11. A data processing system for a drainage facility, comprising:

the second receiving module is used for receiving the inspection position sent by the terminal, the facility state information of the drainage facility at the inspection position and the state identifier corresponding to the facility state information; the facility state information and the state identification comprise facility state information and state identification after data check and data increase; the data checking comprises the following steps: identifying and correcting the problems of position error, attribute error, facility absence and type error of the existing drainage facility data; the data newly-adding comprises the following steps: storing the marks of the drainage facility data which are not stored on the pre-stored map but actually exist, and submitting the marks to a server; the state identification comprises: facilities are added or not added;

12. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements a data processing method of a drainage facility according to any one of claims 1 to 9 when executing the computer program.

13. A computer storage medium on which a computer program is stored, characterized in that the program, when executed by a processor, implements a data processing method of a drainage facility according to any one of claims 1 to 9.