CN112905085A - Road drainage pipeline data management method and system - Google Patents

Abstract

The invention discloses a method and a system for managing data of a road drainage pipeline, which relate to the technical field of data management, wherein the method comprises the following steps: establishing a plane coordinate system based on the two-dimensional map; marking and acquiring position coordinate data of each drainage pipeline facility based on a plane coordinate system; inputting parameter data information corresponding to each position coordinate data and storing the parameter data information in association with the position coordinate data; and generating and displaying the graphic marks of the drainage pipeline facilities on the two-dimensional map based on the position coordinate data, and establishing the corresponding relation between the parameter data information index triggering action and the graphic marks. When a user needs to call data of a certain drainage pipeline facility, a corresponding site can be directly found from the map, and the site is clicked to obtain detailed parameter data of the drainage pipeline facility, the whole data is recorded, stored and called in association with a set two-dimensional map, so that the parameter data with a large number and types can be stored more orderly, and the data can be looked up and called more conveniently.

Description

Road drainage pipeline data management method and system

Technical Field

The invention relates to the technical field of data management, in particular to a method and a system for managing data of a road drainage pipeline.

Background

To facilitate drainage, drainage pipe facilities such as a number of drainage wells and drainage pipes are provided along the town road. Before the drainage pipeline is maintained, a construction party needs to know parameter data of each drainage pipeline facility in detail, such as manufacturing materials, shapes and sizes of drainage wells, and then generates a corresponding maintenance construction scheme.

Because of the large number of drainage line facilities on the road, a single drainage line facility also corresponds to a large number and types of parameter data, and only one road contains the data of the daily amount. How to accomplish the high-efficient management to above-mentioned data, make things convenient for the construction side to look up and transfer when avoiding data loss or mistake, play crucial effect to the maintenance work of drainage pipeline facility.

Disclosure of Invention

The invention aims to provide a road drainage pipeline data management method aiming at the problem that related data of a road drainage pipeline is difficult to manage in practical application. In order to realize the method, the second objective of the invention is to provide a road drainage pipeline data management system, which has the following specific scheme:

a method of road drain line data management, comprising:

establishing a plane coordinate system based on a two-dimensional map displayed by an interactive interface;

marking and acquiring position coordinate data of each drainage pipeline facility based on the plane coordinate system;

inputting parameter data information corresponding to each position coordinate data and storing the parameter data information and the corresponding position coordinate data in a correlated manner;

and generating and displaying the graphic marks of the drainage pipeline facilities on the two-dimensional map based on the position coordinate data, and establishing the corresponding relation between the parameter data information index triggering action and the graphic marks.

Through the technical scheme, the data of each drainage pipeline facility is stored corresponding to one position coordinate data, and the position coordinate data is associated with the set two-dimensional map, so that when a user needs to call the data of a certain drainage pipeline facility, a corresponding site can be directly found from the map, and the detailed parameter data of the drainage pipeline facility is obtained by clicking the site, the input, storage and calling of the whole data are associated with the set two-dimensional map, the parameter data with a large number and types are stored more orderly, the reference and calling are more convenient, and the efficiency of the maintenance work of the drainage pipeline facility is improved.

Further, the marking and acquiring the position coordinate data of each drain pipeline facility includes:

displaying the two-dimensional map in an interactive interface based on a set algorithm and establishing a plane coordinate system;

according to the position of the drainage pipeline facility on the two-dimensional map, clicking a corresponding point on an interactive interface, and automatically generating and outputting the position coordinate data by taking the plane coordinate system as a reference; or

According to the plane coordinate system, the surveying and mapping data of the drainage pipeline facility is directly recorded at the data recording end of the interactive interface, and the surveying and mapping data is automatically converted to generate the position coordinate data based on the corresponding relation between the surveying and mapping reference system and the plane coordinate system.

Through the technical scheme, when data are input, the data can be directly input in a clicking mode based on the corresponding sites of the two-dimensional map on the map, the plane coordinate system can also be used as a reference, the position coordinate data are automatically generated according to the clicking position of the user on the interactive interface, the mapping data can also be directly imported, and then the system generates the position coordinate data according to a set algorithm, so that the mode is various, and the data input and reference efficiency is high.

Further, entering parameter data information corresponding to each position coordinate data and storing the parameter data information in association with the corresponding position coordinate data includes:

sorting the coordinate data of each position according to the position arrangement relation of each drainage pipeline facility on the road, and giving a sorting value to the coordinate data of each position;

establishing a tree-shaped storage structure and correspondingly generating a data entry window based on the sorting values and the inclusion and corresponding relation of each data in the parameter data information;

and inputting and storing parameter data information associated with the coordinate data of each position by using the data input window.

Through above-mentioned technical scheme, with parameter data information and position coordinate information correlation sequencing, the later stage data of being convenient for seek and transfer, simultaneously, sequence above-mentioned position coordinate data, arrange water drainage pipeline facility promptly and arrange water drainage pipeline facility in order, when being favorable to later stage water drainage pipeline facility to maintain, carry out the transfer of data according to the order of setting for, promote the efficiency of maintaining.

Further, the entering and storing of the parameter data information associated with each position coordinate data by using the data entry window includes:

traversing and retrieving each data storage node based on the tree-shaped storage structure, and judging the data storage state in each data storage node;

and if the data storage node does not store data, the graphic mark associated with the data storage node is displayed in the interactive interface in an enhanced manner.

When no data is stored in the data storage node corresponding to the position coordinate data, the data can be visually displayed on the interactive interface through the technical scheme, so that a user can supplement the data in time, and omission is avoided during data entry.

Further, the method further comprises:

establishing an index relation of each parameter data information and a corresponding derived data format;

and setting a data management window in the interactive interface, and exporting or changing the parameter data information according to the input instruction of the data management window.

Through the technical scheme, the data content can be conveniently derived, and the stored parameter data information can be modified.

Furthermore, the drainage pipeline facility comprises an inspection well and a drainage pipeline;

the parameter data information corresponding to the inspection well comprises one or more combinations of pit grade data, pit type data, pit classification data, pit form data, bottom falling depth data, pit depth data, well cover shape data and well cover material data;

the parameter data information corresponding to the drainage pipeline comprises one or more combinations of pipeline material data, pipeline length data, pipeline diameter data and pipeline laying depth data.

In order to implement the data management method, the invention also provides a data management system for the road drainage pipeline, which comprises the following steps:

the data entry unit comprises an interactive interface and an interactive control piece which are set based on a set plane coordinate system, and a data entry window component which is set in association with the interactive interface, wherein the data entry window component is configured to be used for providing a parameter data information entry window in the interactive interface, the interactive interface detects and responds to a click action of a user at a set position to generate and output corresponding position coordinate data, and the interactive control piece receives and responds to the click action on the interactive interface to control the pop-up or the close of the data entry window;

the data storage unit is configured to be in data connection with the data entry window, receive the parameter data information and the position coordinate data and store the parameter data information and the position coordinate data in a correlated manner;

and the data output unit is in data connection with the data storage unit, is in control connection with the interactive control element, receives and responds to a click action of a user at a set position on an interactive interface, and outputs a control signal to control the derivation of the parameter data information in the data storage unit.

Through the technical scheme, the position coordinate data can be conveniently marked, the parameter data information is directly input based on the interactive interface, and the parameter data information and the position coordinate data are stored in a correlation mode, so that the data management is facilitated.

Further, the system further comprises:

the data screening unit is configured to be in data connection with the data storage unit and in control connection with the interaction control element, and comprises a data traversal algorithm component and an alarm control component;

the data traversal algorithm component traverses and inquires the storage content in each data storage node of the data storage unit, if the storage content is empty, the position coordinate data and the alarm signal corresponding to the data storage node are output, and the alarm control component receives and responds to the alarm signal and outputs a control signal to control the interactive interface to display the alarm information at the position corresponding to the position coordinate data.

Through the technical scheme, the entered parameter data information can be screened, data omission is avoided, and the integrity of parameter data entry is ensured.

Further, the system further comprises:

and the data management unit comprises a data modification window component which is arranged in association with the interactive interface, is configured to be in data connection with the data storage unit and the data entry unit, responds to a click action of a set position on the interactive interface, displays a data modification window on the interactive interface, and receives parameter data information and stores the parameter data information into the data storage unit according to a set algorithm.

Through the technical scheme, the data in the data storage unit can be modified.

Further, an interface graphic configuration component is also configured in the data entry unit, and the interface graphic configuration component comprises a storage component for storing set graphic data and a calling component for calling the graphic data to an interactive interface for displaying;

wherein the graphical data comprises a two-dimensional map associated with the planar coordinate system and graphical indicia corresponding to each drain line installation.

Through the technical scheme, the position and the image of each drainage pipeline facility are visually displayed on the interactive interface, so that a user can conveniently inquire the parameter data of the relevant facilities in a map, and the user can more visually know all data and arrangement relations.

Compared with the prior art, the invention has the following beneficial effects:

(1) the drainage pipeline facilities are visually marked on the map by establishing a plane coordinate system on the two-dimensional map of the interactive interface, and a user can directly click the marks to input or look up data parameter information of each drainage pipeline facility, so that the method is visual, convenient and quick, and is favorable for improving the data input and query efficiency;

(2) parameter data information of each drainage pipeline facility is stored corresponding to position coordinate data of the drainage pipeline facility, so that the data can be conveniently called and exported according to user operation;

(3) through setting up the data screening unit, when the parameter data information that each position coordinate data corresponds is incomplete, can show alarm information in the corresponding position on interactive interface, the user of being convenient for sees, takes place to omit when avoiding the data entry from this, guarantees the integrality of data.

Drawings

FIG. 1 is a schematic diagram of a data management method for a road drainage pipeline according to the present invention;

FIG. 2 is a schematic diagram of parameter data information entered corresponding to position coordinate data in the present invention;

FIG. 3 is a block diagram of a road drainage pipeline data management system according to the present invention.

Reference numerals: 1. a data entry unit; 11. an interactive interface; 12. an interactive control; 2. a data storage unit; 3. a data output unit; 31. a data output control algorithm module; 4. a data screening unit; 41. a data traversal algorithm component; 42. an alarm control component; 5. a data modification window component.

Detailed Description

The present invention will be described in further detail with reference to examples and drawings, but the present invention is not limited to these examples.

A method for managing data of a road drainage pipeline, as shown in FIG. 1, mainly comprises the following steps:

s1, establishing a plane coordinate system based on the two-dimensional map displayed by the interactive interface 11;

s2, marking and acquiring position coordinate data of each drainage pipeline facility based on the plane coordinate system;

s3, inputting parameter data information corresponding to each position coordinate data and storing the parameter data information and the corresponding position coordinate data in a related mode;

and S4, generating and displaying the graphic signs of the drainage pipeline facilities on the two-dimensional map based on the position coordinate data, and establishing the corresponding relation between the parameter data information index triggering action and the graphic signs.

In the above step S1, the two-dimensional map includes an engineering drawing or an actual road map drawn by CAD software. And selecting a positioning point on the two-dimensional map as an origin to establish a plane coordinate system, so that each position point on the two-dimensional map can correspond to corresponding position coordinate data.

In order to facilitate the calibration of the position coordinate data, the two-dimensional map is displayed through an interactive interface 11, for example, an operation interface of CAD software is used to input and display data and commands.

Step S2 further includes:

s21, clicking a corresponding point on the interactive interface 11 according to the position of the drainage pipeline facility on the two-dimensional map, and automatically generating and outputting the position coordinate data according to the clicked point by the system by taking the plane coordinate system as reference; or

And S22, according to the plane coordinate system, directly recording the mapping data of the drainage pipeline facility at the data recording end of the interactive interface 11, and automatically converting the mapping data based on the corresponding relation between the mapping reference system and the plane coordinate system to generate the position coordinate data.

In the above sub-step S21, the user visually marks the location point according to the position of the drainage pipeline facility on the two-dimensional map, and then the system automatically generates the position coordinate data according to the click position of the user on the interactive interface 11, so that the whole marking process is simple and fast. In the sub-step S22, the position coordinate data of a drainage pipeline facility may be directly entered through the data entry window in the interactive interface 11, or mapping data of the drainage pipeline facility, such as mapping data stored in a set format by an EXCEL table, may be retrieved, and the data is directly imported into the data storage unit 2 of the system through a set algorithm module.

The method for marking and acquiring the position coordinate data of the drainage pipeline facility has various modes, and can be flexibly changed according to different data entry requirements, so that the data entry efficiency is improved.

As shown in fig. 2, the step S3 further includes:

s31, sorting the coordinate data of each position according to the position arrangement relation of each drainage pipeline facility on the road, and giving a sorting value to the coordinate data of each position;

s32, establishing a tree-shaped storage structure and correspondingly generating a data entry window based on the sorting values and the inclusion and corresponding relation of each data in the parameter data information;

s33, using the data entry window, entering and storing parameter data information associated with each position coordinate data.

In the above sub-step S31, the drainage line facilities are sorted, and preferably, the serial numbers are sorted according to the sequence of the drainage line facilities along the extending direction of the road. The sorting values are configured into a string of address codes during storage, and the address codes are loaded before the position coordinate data, so that the sorting output at the later stage is facilitated.

In the present invention, the drainage pipeline facility mainly includes an inspection well and a drainage pipeline provided on a road. The parameter data information corresponding to the inspection well comprises one or more combinations of pit grade data, pit type data, pit classification data, pit form data, bottom falling depth data, pit depth data, well lid shape data and well lid material data. The parameter data information corresponding to the drainage pipeline includes one or more combinations of pipeline material data, pipeline length data, pipeline diameter data, and pipeline laying depth data, and each of the data corresponds to sub-data according to practical application conditions, for example, the pit type data further includes a catch basin, a sewer well, and the like, which are not described in detail herein.

According to the technical scheme, the parameter data information and the position coordinate information are sorted in an associated mode, the data in the later period are conveniently searched and called, meanwhile, the position coordinate data are sorted, namely, the drainage pipeline facilities are sorted, when the later-period drainage pipeline facilities are maintained, the data are called according to the set sequence, and the maintenance efficiency is improved.

In order to avoid missing during data entry due to the huge amount of data corresponding to each drainage pipeline facility, in the sub-step S33, the parameter data information associated with each position coordinate data is entered and stored by using a data entry window, and the sub-step includes:

traversing and retrieving each data storage node based on the tree-shaped storage structure, and judging the data storage state in each data storage node;

if the data storage node does not store data, the graphic mark associated with the data storage node is displayed in the interactive interface 11 in an enhanced manner.

The above-mentioned enhancement display includes changing the color or size or luminance of the graphic sign in the interactive interface 11, and the above-mentioned data storage state in the data storage node is judged whether there is data in the above-mentioned data storage node or whether the stored data represents that the data is empty, when there is no data stored in the data storage node corresponding to the position coordinate data, it can be displayed visually on the interactive interface 11, so as to facilitate the user to supplement the data in time, and avoid missing during data entry.

In the step S4, the corresponding relationship between each parameter data information index trigger action and the graphic mark is established, including that the user clicks the graphic mark on the interactive interface 11, and then the parameter data information corresponding to the position coordinate data associated with the graphic mark is exported for display or report generation.

To facilitate the derivation of the parameter data information, the method further comprises:

and establishing an index relation of each parameter data information and a corresponding derived data format, wherein the formats comprise a table format or a document format.

In order to facilitate the modification of the data, a data management window is arranged in the interactive interface 11, and the parameter data information is exported or modified according to the data management window input instruction.

The road drainage pipeline data management method has the advantages that: the parameter data information of each drainage pipeline facility is stored corresponding to the position coordinate data of the drainage pipeline facility in a set plane coordinate system, and the plane coordinate system is associated with the map, so that when a user needs to call data of a certain drainage pipeline facility, a corresponding point or a graphic mark can be directly found from the map, and the detailed parameter data of the drainage pipeline facility can be obtained by clicking the point. The whole data is recorded, stored and called in association with the set two-dimensional map, so that parameter data with various quantities and types can be stored more orderly, the data can be looked up and called more conveniently and visually, and the efficiency of maintenance work of drainage pipeline facilities is improved.

In order to implement the data management method, as shown in fig. 3, the present invention further provides a data management system for a road drainage pipeline, which mainly includes: a data entry unit 1, a data storage unit 2, and a data output unit 3.

The data entry unit 1 comprises an interactive interface 11 and an interactive control 12, which are set based on a set plane coordinate system, and in an implementation, the interactive interface 11 is implemented by a mobile terminal (such as an IPAD) having a touch display screen or a computer suite loaded with related CAD software. The interactive control component 12 includes a program control module loaded in the mobile terminal or the computer, and a data entry window assembly configured in association with the interactive interface 11 is configured in the program control module.

The data entry window component is configured to provide a parameter data information entry window in the interactive interface 11, and the data entry window component pops up a data entry window with a set format according to a click action of a user at a set position on the interactive interface 11.

In actual application, the user's click action on a set position on the interactive interface 11 is detected by using the interactive interface 11, and corresponding position coordinate data is generated and output based on a set plane coordinate system. The interactive control 12 receives and responds to the click action on the interactive interface 11, and controls the popup or the closing of the data entry window according to the position of the click action on the interactive interface 11.

In the present invention, the data storage unit 2 is directly implemented by using a data storage module in a mobile terminal or a computer, and is configured to be in data connection with the data entry window, receive the parameter data information and the position coordinate data, and perform data conversion and then store in association. The above-mentioned associated storage mode is preferably a tree-shaped storage structure, the position coordinate data is used as a root node, and each parameter data information is used as an intermediate node or a leaf node, so that the data query is facilitated.

In practical applications, the data output unit 3 includes a data output control algorithm module 31 disposed in the mobile terminal or the computer, and is in data connection with the data storage unit 2 and in control connection with the interactive control element 12, and the data output control algorithm module 31 receives and responds to a click action of a user at a set position on the interactive interface 11, and outputs a control signal to retrieve data of a set data storage node in the data storage unit 2, and outputs and displays the data through the interactive interface 11.

In the present invention, in order to make the user visually see the drainage pipeline facility, the data entry unit 1 is further configured with an interface graphic configuration component, and the interface graphic configuration component includes a storage component for storing set graphic data and a calling component for calling the graphic data to the interaction interface 11 for display. The graphical data includes a two-dimensional map associated with the planar coordinate system and graphical indicia corresponding to each drain line installation. The two-dimensional map can be a CAD engineering drawing or a satellite remote sensing map, and in application, the two-dimensional map is configured as the background of the interactive interface 11, so that after the drainage pipeline facilities are marked, the two-dimensional map can be visually displayed on the interactive interface 11, such as the positions of the inspection well and the drainage pipeline in a road. The graphic mark is used for representing different drainage pipeline facilities, such as a circle for a manhole, a bar for a pipeline and the like. Based on the technical scheme, the positions and the images of the drainage pipeline facilities are visually displayed on the interactive interface 11, so that a user can conveniently inquire parameter data information of the related facilities on a map, the user only needs to click on the corresponding graphic marks on the interactive interface 11, and the user can more visually know all data and arrangement relations.

Due to the huge data volume of the drainage pipeline facility, in order to avoid missing data entry, in the embodiment of the invention, the system further comprises a data screening unit 4. The data screening unit 4 includes a data traversal algorithm component 41 in data communication with the data storage unit 2 and an alarm control component 42 in control communication with the interactive control 12. The data traversal algorithm component 41 traverses the storage content in each data storage node in the query data storage unit 2, and outputs the position coordinate data and the alarm signal corresponding to the data storage node if the storage content is empty or the storage content is specific code data. The alarm control component 42 receives and responds to the alarm signal, and outputs a control signal to control the interactive interface 11 to display alarm information at a position corresponding to the position coordinate data, where the alarm information includes text information displayed at a set position on the interactive interface 11 or a graphic mark corresponding to the position coordinate data is highlighted, and the like. Based on the technical scheme, if the data corresponding to a certain water drainage pipeline facility in the road is not completely input, the data can be visually and prominently displayed on the interactive interface 11 to prompt a user to input information, so that the deficiency of parameter data information is avoided.

In order to modify the data in the data storage unit 2 conveniently, the system further comprises a data management unit, wherein the data management unit comprises a data modification window component 5 which is arranged in association with the interactive interface 11 and is configured to be in data connection with the data storage unit 2 and the data entry unit 1, a data modification window is displayed on the interactive interface 11 in response to a click action of a set position on the interactive interface 11, and the data modification window receives the parameter data information and stores the parameter data information into the data storage unit 2 according to a set algorithm. As shown in fig. 3, the data in the data storage unit 2 can be modified by the above technical solution.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (10)

1. A method for managing data of a road drainage pipeline is characterized by comprising the following steps:

establishing a plane coordinate system based on the two-dimensional map;

marking and acquiring position coordinate data of each drainage pipeline facility based on the plane coordinate system;

inputting parameter data information corresponding to each position coordinate data and storing the parameter data information and the corresponding position coordinate data in a correlated manner;

and generating and displaying the graphic marks of the drainage pipeline facilities on the two-dimensional map based on the position coordinate data, and establishing the corresponding relation between the parameter data information index triggering action and the graphic marks.

2. The method of claim 1, wherein the marking and obtaining positional coordinate data of where each drain line installation is located comprises:

displaying the two-dimensional map in an interactive interface (11) based on a set algorithm and establishing a plane coordinate system;

according to the position of the drainage pipeline facility on the two-dimensional map, clicking a corresponding point on an interactive interface (11), and automatically generating and outputting the position coordinate data by taking the plane coordinate system as a reference; or

According to the plane coordinate system, the surveying and mapping data of the drainage pipeline facility is directly recorded at the data recording end of the interactive interface (11), and the surveying and mapping data is automatically converted to generate the position coordinate data based on the corresponding relation between the surveying and mapping reference system and the plane coordinate system.

3. The method of claim 2, wherein entering and storing parameter data information corresponding to each location coordinate data in association with the corresponding location coordinate data comprises:

sorting the coordinate data of each position according to the position arrangement relation of each drainage pipeline facility on the road, and giving a sorting value to the coordinate data of each position;

establishing a tree-shaped storage structure and correspondingly generating a data entry window based on the sorting values and the inclusion and corresponding relation of each data in the parameter data information;

and inputting and storing parameter data information associated with the coordinate data of each position by using the data input window.

4. The method of claim 3, wherein the entering and storing of the parameter data information associated with the respective location coordinate data using the data entry window comprises:

traversing and retrieving each data storage node based on the tree-shaped storage structure, and judging the data storage state in each data storage node;

if the data storage node does not store data, the graphic mark associated with the data storage node is displayed in the interactive interface (11) in an enhanced mode.

5. The method of claim 2, further comprising:

establishing an index relation of each parameter data information and a corresponding derived data format;

and setting a data management window in the interactive interface (11), and exporting or changing the parameter data information according to a data management window input instruction.

6. The method of claim 1, wherein the drain line facilities include a manhole and a drain pipe;

the parameter data information corresponding to the inspection well comprises one or more combinations of pit grade data, pit type data, pit classification data, pit form data, bottom falling depth data, pit depth data, well cover shape data and well cover material data;

the parameter data information corresponding to the drainage pipeline comprises one or more combinations of pipeline material data, pipeline length data, pipeline diameter data and pipeline laying depth data.

7. A road drain line data management system, comprising:

the data entry unit (1) comprises an interactive interface (11) and an interactive control element (12) which are set based on a set plane coordinate system, and a data entry window component which is set in association with the interactive interface (11), wherein the data entry window component is configured to be used for providing a parameter data information entry window in the interactive interface (11), the interactive interface (11) detects and responds to a clicking action of a user at a set position to generate and output corresponding position coordinate data, and the interactive control element (12) receives and responds to the clicking action on the interactive interface (11) to control the popping up or closing of the data entry window;

the data storage unit (2) is configured to be in data connection with the data entry window, receive the parameter data information and the position coordinate data and store the parameter data information and the position coordinate data in a correlated mode;

and the data output unit (3) is in data connection with the data storage unit (2), is in control connection with the interactive control element (12), receives and responds to a clicking action of a user at a set position on the interactive interface (11), and outputs a control signal to control derivation of the parameter data information in the data storage unit (2).

8. The system of claim 7, further comprising:

a data screening unit (4) configured to be in data connection with the data storage unit (2) and in control connection with the interactive control (12), comprising a data traversal algorithm component (41) and an alarm control component (42);

the data traversal algorithm component (41) traverses the storage content in each data storage node of the query data storage unit (2), and outputs position coordinate data and an alarm signal corresponding to the data storage node if the storage content is empty, and the alarm control component (42) receives and responds to the alarm signal and outputs a control signal to control the interactive interface (11) to display alarm information at a position corresponding to the position coordinate data.

9. The system of claim 8, further comprising:

and the data management unit comprises a data modification window component (5) which is arranged in association with the interactive interface (11), is configured to be in data connection with the data storage unit (2) and the data entry unit (1), responds to a click action of a set position on the interactive interface (11), displays a data modification window on the interactive interface (11), and receives parameter data information and stores the parameter data information into the data storage unit (2) according to a set algorithm.

10. The system according to claim 7, characterized in that the data entry unit (1) is further configured with an interface graphic configuration component, and the interface graphic configuration component comprises a storage component for storing set graphic data and a calling component for calling the graphic data to the interaction interface (11) for display;

wherein the graphical data comprises a two-dimensional map associated with the planar coordinate system and graphical indicia corresponding to each drain line installation.

Images