CN110427679B - Gas pipe network online editing method and pipe network online editing system - Google Patents

Abstract

The invention provides a gas pipe network online editing method and a pipe network online editing system, wherein the method comprises the following steps: the method comprises the steps that when an external request is conducted to import preset gas pipe network data, import is executed, and the gas pipe network data comprises a plurality of objects and attributes of the objects; configuring a gas pipe network schematic diagram according to the gas pipe network data, and displaying the gas pipe network schematic diagram through a webpage, wherein in the gas pipe network schematic diagram, each object is identified by a legend view, and configuration information of the objects is consistent with attributes of the objects; when the pipe network editing function is triggered externally, displaying the legend view of each preset object and each preset editing tool through a webpage; and after any editing tool is triggered externally, according to the online editing function of the editing tool and the external editing operation, the currently displayed gas pipe network schematic diagram is changed and displayed through a webpage. And displaying a targeted legend view and an editing tool to the user so as to meet the online editing requirement of the user and simplify the online editing operation of the user, so that the editing efficiency is improved and the user experience is good.

Description

Gas pipe network online editing method and pipe network online editing system

Technical Field

The invention relates to the technical field of computers, in particular to a gas pipe network online editing method and a pipe network online editing system.

Background

Before laying the gas pipeline, a corresponding gas pipe network schematic diagram is generally drawn. Therefore, related workers can know the laying condition of the gas pipeline in advance according to the schematic diagram, such as the position of the pipeline and the trend of the pipeline, and can perform subsequent verification, change as required, corresponding laying implementation and other operations.

At present, a plotter can draw a corresponding gas pipe network schematic diagram on AutoCAD drawing software by referring to preset gas pipe network data. And then, the staff can change the gas pipe network communication condition of each object in the schematic diagram as required.

Because the technical support of the existing drawing software for industry specific change operation is usually insufficient, the editing efficiency of the existing implementation mode is low, and the user experience is poor.

Disclosure of Invention

The invention provides a gas pipe network online editing method and a pipe network online editing system, which can improve editing efficiency and have good user experience.

In order to achieve the purpose, the invention is realized by the following technical scheme:

on one hand, the invention provides a gas pipe network online editing method, which is applied to a pipe network online editing system and comprises the following steps:

when an external import request aiming at preset gas pipe network data is received, importing the gas pipe network data, wherein the gas pipe network data comprises a plurality of objects and the attributes of the objects;

configuring a gas pipe network schematic diagram according to the gas pipe network data, wherein in the gas pipe network schematic diagram, each object in the gas pipe network data is identified by a legend view thereof, and configuration information of each object is consistent with the attribute thereof;

displaying the gas pipe network schematic diagram through a webpage;

when the pipe network editing function of the pipe network online editing system is monitored to be triggered externally, a legend view and preset editing tools of each preset object are displayed through a webpage;

after any editing tool is monitored to be externally triggered, the currently displayed gas pipe network schematic diagram is changed according to the preset online editing function of the editing tool and the external editing operation;

and displaying the changed gas pipe network schematic diagram through a webpage.

Further, the attributes include: at least one of a home point number, a component type, a device type, an abscissa, an ordinate, a type of the tube point object, or at least one of a home point number, a top point number, a component type, a device type, a pressure level of the tube point object.

Further, each preset object includes: at least one pipe point object of a valve, a water condensing cylinder, a gas carrying point, an empty node, a gas source point, a flow meter, a detection point, a node, a yard point, a civil user, a commercial and commercial company, a cathode protection device, a pressure regulating device and a topological point.

Further, the preset editing tools comprise: moving points, moving points along a line, adding points, adding lines, adding pipe points on the line, connecting two points, modifying angles, deleting point lines in batches, setting pipe point types, brushing attributes, merging pipe points to pipelines, editing topographic maps, maintaining pipe lengths, editing attributes for click queries, editing attributes for condition queries, editing along the line, replacing attributes, merging points, extending pipe points to pipe sections, extending end points to pipe sections, breaking lines and canceling.

Further, after the external triggering operation for any editing tool is monitored, the currently displayed gas pipe network schematic diagram is changed according to the preset online editing function of the editing tool and by combining the external editing operation, and the method comprises the following steps:

when an editing tool of adding points triggered externally is monitored, five sub-editing tools of clicking a point, two-point bolt points, two-side bolt points, a cross-point parallel reference edge, a cross-point vertical reference edge and bolt points according to angles are displayed through a webpage, and when any sub-editing tool triggered externally is monitored, a pipe point object is added to a currently displayed gas pipe network schematic diagram according to the preset online editing function of the sub-editing tool and the external editing operation;

or the like, or, alternatively,

when the editing tool of an external trigger addition line is monitored, three sub-editing tools of a click point, two-point bolt points and two-side bolt points are displayed through a webpage, and when any sub-editing tool of the external trigger is monitored, a pipeline object is added to the currently displayed gas pipe network schematic diagram according to the preset online editing function of the sub-editing tool and by combining with external editing operation.

Further, the data type of the gas pipe network data is Excel worksheet data;

the gas pipe network data includes: gas pipeline data in the point table and/or gas pipeline data in the line table;

after receiving the import request and before configuring the gas pipe network schematic diagram, the method further includes: performing data inspection according to a preset data inspection rule so as to inspect the format and filling content of each object in the gas pipe network data; if the check fails, displaying each checked object which fails to pass the check and the error details thereof through the webpage, and ending the current process; and if the check is passed, executing the configuration gas pipe network schematic diagram.

Further, the data checking rule includes at least one of the following rule items:

a first sheet page for identifying a point table and a second sheet page for identifying a line table exist in the Excel document, and the first sheet page is before the second sheet page;

the attribute fields in the point table are not repeated;

the attribute fields in the line table are not repeated;

the local point number and the upper point number in the line table exist in the point table;

the number of the local point of any pipe section in the line table is different from the number of the previous point;

the number of the point in the point table is unique;

the field contents of the point number, the component type, the equipment type, the abscissa, the ordinate and the type in the point table are all not empty, and the field contents meet the standard specification;

the field contents of the local point number, the upper point number, the component type, the equipment type and the pressure level in the line table are all not empty, and the field contents meet the standard specification;

the component types in the point table comprise nodes, valves, pressure regulating equipment, water condensing cylinders, civil households, industrial and commercial businesses, cathode protection equipment, courtyard points and air source points, and different component types respectively correspond to different layer names;

the component types in the line chart are pipe sections.

Further, the gas pipe network schematic includes: the gas pipeline network diagram and a topographic map which is positioned at the lower layer of the gas pipeline network diagram and is matched with the gas pipeline network diagram for use;

and all objects in the gas pipe network data are part or all of all objects in the gas pipe network diagram.

Further, the displaying the gas pipe network schematic diagram through the webpage comprises: displaying the gas pipe network schematic diagram through a webpage, and highlighting a legend view of each object in the gas pipe network data;

and after the gas pipe network schematic diagram is displayed through the webpage, the method further comprises the following steps: when a clear button of the pipe network online editing system is monitored to be triggered externally, all the existing highlighting effects are eliminated; when the task management function of the online pipeline network editing system is monitored to be triggered externally, each imported gas pipeline network data is displayed through a webpage; when any imported gas pipe network data is monitored through external triggering, the legend view of each object in the gas pipe network data is highlighted in the currently displayed gas pipe network schematic diagram; when it is monitored that an external request is sent to delete any imported gas pipe network data, the legend view of each object in the gas pipe network data in the currently displayed gas pipe network schematic diagram is cleared.

In another aspect, the present invention provides a pipe network online editing system for executing any one of the above gas pipe network online editing methods, including:

a display unit;

the gas pipe network data importing device comprises an importing unit and a processing unit, wherein the importing unit is used for importing gas pipe network data when an importing request aiming at preset gas pipe network data from the outside is received, and the gas pipe network data comprises a plurality of objects and the attributes of the objects;

the configuration unit is used for configuring a gas pipe network schematic diagram according to the gas pipe network data, wherein in the gas pipe network schematic diagram, each object in the gas pipe network data is identified by a legend view, the configuration information of each object is consistent with the attribute of each object, and the display unit is controlled to display the gas pipe network schematic diagram through a webpage;

the online editing unit is used for controlling the display unit to display the legend view and the preset editing tools of each preset object through a webpage when the pipe network editing function of the pipe network online editing system is monitored to be triggered externally; and after any editing tool is monitored to be externally triggered, the currently displayed gas pipe network schematic diagram is changed according to the preset online editing function of the editing tool and the external editing operation, and the display unit is controlled to display the changed gas pipe network schematic diagram through a webpage.

The invention provides a gas pipe network online editing method and a pipe network online editing system, wherein the method comprises the following steps: the method comprises the steps that when an external request is conducted to import preset gas pipe network data, import is executed, and the gas pipe network data comprises a plurality of objects and attributes of the objects; configuring a gas pipe network schematic diagram according to the gas pipe network data, and displaying the gas pipe network schematic diagram through a webpage, wherein in the gas pipe network schematic diagram, each object is identified by a legend view, and configuration information of the objects is consistent with attributes of the objects; when the pipe network editing function is triggered externally, displaying the legend view of each preset object and each preset editing tool through a webpage; and after any editing tool is triggered externally, according to the online editing function of the editing tool and the external editing operation, the currently displayed gas pipe network schematic diagram is changed and displayed through a webpage. And displaying a targeted legend view and an editing tool to the user so as to meet the online editing requirement of the user and simplify the online editing operation of the user, so that the editing efficiency is improved and the user experience is good.

Drawings

In order to more clearly illustrate the embodiments or technical solutions of the present invention, the drawings used in the embodiments or technical solutions in the prior art are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a flowchart of an online editing method for a gas pipeline network according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a pipe network online editing system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer and more complete, the technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention, and based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the scope of the present invention.

As shown in fig. 1, an embodiment of the present invention provides an online editing method for a gas pipe network, which is applied to an online editing system for a pipe network, and includes the following steps:

step 101: when an external import request aiming at preset gas pipe network data is received, importing the gas pipe network data, wherein the gas pipe network data comprises a plurality of objects and the attributes of the objects.

Step 102: and configuring a gas pipe network schematic diagram according to the gas pipe network data, wherein in the gas pipe network schematic diagram, each object in the gas pipe network data is identified by a legend view of the object, and the configuration information of each object is consistent with the attribute of the object.

Step 103: and displaying the gas pipe network schematic diagram through a webpage.

Step 104: and when the pipe network editing function of the pipe network online editing system is monitored to be triggered externally, displaying the legend view and the preset editing tools of each preset object through a webpage.

Step 105: and after any editing tool is monitored to be triggered externally, the currently displayed gas pipe network schematic diagram is changed according to the preset online editing function of the editing tool and the external editing operation.

Step 106: and displaying the changed gas pipe network schematic diagram through a webpage.

The embodiment of the invention provides an online editing method for a gas pipe network, which comprises the following steps: the method comprises the steps that when an external request is conducted to import preset gas pipe network data, import is executed, and the gas pipe network data comprises a plurality of objects and attributes of the objects; configuring a gas pipe network schematic diagram according to the gas pipe network data, and displaying the gas pipe network schematic diagram through a webpage, wherein in the gas pipe network schematic diagram, each object is identified by a legend view, and the configuration information of each object is consistent with the attribute of each object; when the pipe network editing function is triggered externally, displaying the legend view of each preset object and each preset editing tool through a webpage; and after any editing tool is triggered externally, according to the online editing function of the editing tool and the external editing operation, the currently displayed gas pipe network schematic diagram is changed and displayed through a webpage. And displaying a targeted legend view and an editing tool to the user so as to meet the online editing requirement of the user and simplify the online editing operation of the user, so that the editing efficiency is improved and the user experience is good.

In detail, the pipe network online editing system or pipe network online editing tool can develop a special tool for developers to perform comprehensive management on a gas pipe network, provide services for users through a visual interface, and provide a visual and convenient pipeline comprehensive management service platform for gas pipe network data maintainers and managers.

Typically, such a networked online editing system may serve users via a web page. For example, a user can log in to the system by inputting an account password through a specific browser address. After logging in the system, functions of inquiry, editing, tasks, inspection, tools and system setting can be sequentially displayed on a main interface of the system.

Before the gas pipe network schematic diagram is automatically checked, the gas pipe network schematic diagram needs to be generated firstly. In the embodiment of the invention, a gas pipe network schematic diagram can be automatically generated. Thus, the system first needs to import gas pipe network data for generating a gas pipe network schematic.

In general, a user may preset each object and its attribute as required as gas pipe network data. And after the setting is finished, requesting data import, and after the data is imported by the system, configuring the schematic diagram according to the data.

The objects herein can be divided into a tube point object and a tube object. For example, the pipeline object can be a valve, a condenser, a flowmeter, etc., and the pipeline object can be a gas pipeline.

Correspondingly, the attributes of the tube point object may include the number of the point, the type of the component, the type of the device, the abscissa, the ordinate, the type, etc.

For example, the attributes of a valve may be: the number of the dots is as follows: 0100 (i.e., a unique identification number for indicating the valve); the component types are as follows: tube points; the device types are as follows: a gas valve; the abscissa: 468077.500000km; the ordinate is: 4371565.000000km; the types are as follows: and (4) a valve.

In other embodiments of the present invention, the attributes of the managed point object may further include specification, material, pressure level, etc. based on different practical application requirements.

Accordingly, the attributes of the pipeline object may include the local point number, the component type, the equipment type, the pressure level, etc.

For example, the properties of a gas pipeline may be: the number of the dots is as follows: 0100; the upper point number: 0101; the component types are as follows: a pipeline; the type of equipment: a gas pipeline; pressure grade: high.

In other embodiments of the present invention, based on different practical application requirements, the attributes of the pipeline object may further include a pipe length, a pipe diameter, a pipe material, a wall thickness, a laying method, an anticorrosion method, and the like.

Based on the attributes of each object, the system can configure the gas pipe network schematic. In the configured schematic diagram, the objects are identified by corresponding legend views, and the configuration information of the objects is consistent with the attributes of the objects. For example, the number of the pipe 1 is the same as the number of the valve 1, and the number of the valve 2 is the same as the number of the pipe 1, and in the configured schematic diagram, the two ends of the pipeline of the pipe 1 are respectively connected with the illustration views of the two valves. For another example, when the length of the pipeline 1 is 100m, the pipeline length of the pipeline 1 in the configured schematic diagram is still 100m after scaling. For another example, after the positioning coordinates of the valve 1 are determined, the position of the valve 1 in the configured schematic diagram is consistent with the positioning coordinates. Therefore, the user can clearly and accurately know the actual layout condition of the gas pipe network by checking the schematic diagram.

In summary, the embodiment of the invention not only can automatically execute the inspection operation, but also can automatically configure the gas pipe network schematic diagram, and does not need manual configuration by a user, and the user only needs to set the gas pipe network data in advance, so that the manpower input is greatly reduced, and the invention is especially suitable for application scenes with large data volume and complex schematic diagrams. In addition, human errors easily caused by artificial drawing are correspondingly reduced.

To facilitate the identification of the gas pipe network data by the system, the data type is typically structured data. Such as table data. Thus, the data type of the gas pipe network data can be Excel worksheet data, and specifically comprises gas pipe point data in a point table and/or gas pipe line data in a line table. In general, when a user imports data, the point table and the line table may be imported at the same time or may be imported separately.

Based on this, in one embodiment of the present invention, the data type of the gas pipe network data is Excel worksheet data;

the gas pipe network data includes: gas pipeline data in the point table and/or gas pipeline data in the line table;

after receiving the import request and before configuring the gas pipe network schematic diagram, the method further includes: performing data inspection according to a preset data inspection rule so as to inspect the format and filling content of each object in the gas pipe network data; if the check fails, displaying each checked object which fails to pass the check and the error details thereof through a webpage, and ending the current flow; and if the check is passed, executing the configuration gas pipe network schematic diagram.

Based on this, in one embodiment of the invention, the data checking rule comprises at least one of the following rule items: (1) A first sheet page for identifying a point table and a second sheet page for identifying a line table exist in the Excel document, and the first sheet page is before the second sheet page; (2) the attribute fields in the point table are not repeated; (3) the attribute fields in the line table are not repeated; (4) The point number and the upper point number in the line table exist in the point table; (5) The local point number of any pipe section in the line table is different from the previous point number; (6) the number of the point in the point table is unique; (7) The field contents of the point number, the component type, the equipment type, the abscissa, the ordinate and the type in the point table are all not empty, and the field contents meet the standard specification; (8) The field contents of the local point number, the upper point number, the component type, the equipment type and the pressure level in the line table are all not empty, and the field contents meet the standard specification; (9) The component types in the point table comprise nodes, valves, pressure regulating equipment, condensate tanks, civil households, industrial and commercial businesses, cathode protection equipment, courtyard points and air source points, and different component types respectively correspond to different layer names; (10) the type of component in the line chart is pipe section.

For example, when the examination passes, the examination result can be displayed as: success: the check is passed.

When the check fails, the display content may be as follows:

the check term k _191 does not pass: the value of the "laying method" column with the point number of RQ101200 in the line cannot be found in the database

Check term k _192 does not pass: the value of the "laying method" column with the point number of RQ101201 in the line cannot be found in the database

……

After the user views the display content, the corresponding modification can be made, the system can check the modified item again after the modification, and the gas pipe network schematic diagram can be configured after the check is passed. The configured schematic diagram can be displayed through a webpage, and particularly can be displayed through the webpage on a main page of the pipe network online editing system, so that a user can visually understand the configured schematic diagram.

As described above, the configured gas pipe network diagram should, most basically, include a gas pipe network diagram that identifies the connection relationship between the objects. When the scale is changed as required, the gas pipe network schematic diagram can be enlarged or reduced in the same scale.

Preferably, in an embodiment of the present invention, the gas pipe network schematic comprises: the gas pipeline network diagram and a topographic map which is positioned at the lower layer of the gas pipeline network diagram and is matched with the gas pipeline network diagram for use;

and all objects in the gas pipe network data are part or all of all objects in the gas pipe network diagram.

In the embodiment of the invention, in the configured gas pipe network schematic diagram, not only the gas pipe network diagram is displayed, but also a topographic map matched with the gas pipe network diagram is displayed on the lower layer of the gas pipe network diagram. Because can mark road, river, district etc. in the topographic map, so, when cooperating the topographic map and seeing the gas pipe network picture, the user can have more directly perceived, accurate understanding to the condition of laying of gas pipe network, and the picture effect of seeing is better, and it is more convenient to operate.

In addition, when the schematic diagram is configured, the configuration may be performed for the first time or may be performed continuously on the basis of an existing schematic diagram, so that each object in the gas pipe network data currently imported by the user may be a part of or all of the objects in the generated schematic diagram.

Considering that when the current configuration is not the first configuration, the gas pipe network diagram of the gas pipe network schematic diagram is equivalent to be composed of two parts, one part is an existing pipe network diagram, and the other part is a newly generated pipe network diagram. Therefore, in order to facilitate the user to intuitively know the pipe network diagram corresponding to the requested gas pipe network data, the newly generated pipe network diagram can be highlighted after the gas pipe network schematic diagram is configured.

Based on the above, in an embodiment of the present invention, the displaying the gas pipeline network schematic diagram through a webpage includes: displaying the gas pipe network schematic diagram through a webpage, and highlighting the legend view of each object in the gas pipe network data;

and after the displaying of the gas pipe network schematic diagram through the webpage, further comprising: when a clear button of the pipe network online editing system is monitored to be triggered externally, all the existing highlighting effects are eliminated; when the task management function of the pipe network online editing system is monitored to be triggered externally, each imported gas pipe network data is displayed through a webpage; when any imported gas pipe network data is monitored through external triggering, the legend view of each object in the gas pipe network data is highlighted in the currently displayed gas pipe network schematic diagram; when it is monitored that an external request is sent to delete any imported gas pipe network data, the legend view of each object in the gas pipe network data in the currently displayed gas pipe network schematic diagram is cleared.

As described above, the user can quickly and intuitively understand the pipe network diagram corresponding to the requested gas pipe network data according to the highlighting operation. Of course, the user can also eliminate this high-line display effect as desired.

Since there are cases of first configuration and non-first configuration, the system can distinguish and manage the gas pipe network data imported by the user for different times in order to facilitate the subsequent on-demand operation of the user. Therefore, the user can check the currently displayed gas pipe network schematic diagram, and what part of gas pipe network data corresponds to. On the basis, when a user triggers any gas pipe network data, the corresponding pipe network diagram can be highlighted, so that the user can visually and quickly know the corresponding pipe network diagram. Specifically, in the currently illustrated gas pipe network schematic, a legend view highlighting each object in the gas pipe network data.

After the user checks the data, the user can operate the data as required, for example, clicking a clear button to eliminate the highlighted display effect, and then clicking a delete button corresponding to the gas pipe network data to delete the gas pipe network data. Of course, after deleting data of a gas pipe network, the currently displayed gas pipe network schematic diagram does not have the corresponding part of the gas pipe network schematic diagram.

After the user views the currently displayed gas pipe network schematic diagram, the gas pipe network schematic diagram can be edited on line according to the experience of the user. For example, when the user finds that an isolated point exists and the user empirically determines that the isolated point is a dead point, the isolated point can be deleted. Specifically, the user can click on a preset editing tool, namely a deletion point, and then click on the isolated point, so that the isolated point can be deleted from the gas pipe network schematic diagram.

In detail, the online editing operation can be repeatedly executed for a plurality of times, and the obtained gas pipe network schematic diagram is displayed after each execution. And circulating the steps until a gas pipe network schematic diagram required by a user is obtained.

In the embodiment of the invention, the pipe network online editing system is a special tool for the comprehensive management of the gas pipe network, so that various targeted legend views and editing tools are provided for users on the display page of the pipe network online editing system to meet the online editing requirements of the users, the online editing operation of the users is simplified, the editing efficiency is greatly improved, the user experience is good, and the overall period of the comprehensive management of the gas pipe network is greatly shortened.

In an embodiment of the present invention, each preset object includes: at least one pipe point object of a valve, a water condensing cylinder, a gas carrying point, an empty node, a gas source point, a flowmeter, a detection point, a node, a yard point, a civil user, a commercial tenant, a cathode protection device, a pressure regulating device and a topology point.

In an embodiment of the present invention, each of the preset editing tools includes: moving points, moving points along a line, adding points, adding lines, adding pipe points on the line, connecting lines of two points, modifying angles, deleting point lines in batches, setting pipe point types, brushing attributes, merging pipe points to pipelines, editing topographic maps, maintaining pipe lengths, editing attributes aiming at click query, editing attributes aiming at condition query, editing along the line, replacing attributes, merging points, extending pipe points to pipe sections, extending end points to pipe sections, breaking the line and withdrawing at least one editing tool.

In general, there may be multiple implementations of adding points, and different implementations correspond to different application scenarios, so that different sub-editing tools may exist corresponding to different implementations. When the user clicks the editing tool of adding points, the system displays the sub editing tools, and the user can click any sub editing tool as required, so that the adding of the management points is realized according to the realization mode and the known information.

Therefore, in an embodiment of the present invention, after the external trigger operation for any one of the editing tools is monitored, the modifying, according to the preset online editing function of the editing tool and in combination with the external editing operation, the currently displayed gas pipe network schematic diagram includes: when the editing tool of adding points triggered externally is monitored, five sub editing tools of clicking a point, two-point bolt points, two-side bolt points, a cross-point parallel reference edge, a cross-point vertical reference edge and bolt points according to angles are displayed through a webpage, and when any sub editing tool triggered externally is monitored, a pipe point object is added to the currently displayed gas pipe network schematic diagram according to the preset online editing function of the sub editing tool and the external editing operation.

Since adding a line involves adding a point, similar to adding a point, the editing tool of adding a line also corresponds to some sub-editing tools.

Therefore, in an embodiment of the present invention, after the external trigger operation for any one of the editing tools is monitored, the modifying, according to the preset online editing function of the editing tool and in combination with the external editing operation, the currently displayed gas pipe network schematic diagram includes: when the editing tool of an external trigger addition line is monitored, three sub-editing tools, namely a click point, two-point bolt points and two-side bolt points, are displayed through a webpage, and when any one sub-editing tool of the external trigger is monitored, a pipeline object is added to the currently displayed gas pipe network schematic diagram according to the preset online editing function of the sub-editing tool and the external editing operation.

With the above, the following explains the above-described editing tools for online editing, respectively.

Moving point

And moving points mainly keep the topological relation of the pipe network. It should be noted that when moving the pipe point, the pipe section will also move.

For example, after the user clicks the "move point", the tube point can be moved by dragging with a mouse or inputting coordinates. In addition, if the user clicks 'save', the point movement is successful; clicking to restore, and restoring the point to the original position; clicking to cancel, and then canceling the current operation; the mobile equipment can still be clicked after being saved or cancelled; and if the user clicks exit, the user exits the moving point operation.

(II) moving the point along the line

Moving points along the line, mainly moving pipe points along the pipeline.

For example, after clicking the "move along the line" by the user, the user can select the pipeline first and then select the pipe point to be moved according to the prompt; then the user can input the moving distance and select positioning, and if the tube point moves to the other side, the edge is changed; and then the system can pop up a confirmation box, and the user finishes moving the point along the line after clicking and determining.

(III) addition point

And adding points, namely adding pipe points. The user can select the type of the point device to be added, then click the 'adding point', and further select any one of a click point, a two-point bolt point, two-edge bolt points, a passing point parallel reference edge, a passing point vertical reference edge and an angle bolt point.

1. Click point

When the coordinates or exact location of the add point is known unambiguously, a "click to point" can be selected.

For example, after clicking "click to get a point", the user may input coordinates, click to locate to add a point, fill in device attributes after adding, and click to save, the addition is successful.

For another example, after the user clicks "click to get a point", the user can directly click on the map to add the point, and then fill in the device attribute after adding, and the user can successfully add the point after clicking and saving.

2. Two-point bolt point

The absolute coordinates and exact location of the added point are not known, but the "two-point peg point" can be selected when the relative distance of the added point to two known points is known.

For example, after clicking "two-point tie point", the user can click and select a known point, then input the relative distance between the known point and the added point, click and position, and the system can draw a circle taking the known point as the center of the circle and the relative distance between the known point and the added point as the radius; similarly, another known point is selected and a circle is drawn; the two circles intersect, so that two intersection points can appear; and clicking and selecting an intersection point, namely the position of the adding point, by the user according to the actual situation, and filling attribute information.

3. Two-side bolt point

The absolute coordinates and exact location of the added point are not known, but the relative distance of the added point to the two lines is known, and a "two-sided bolt point" can be selected.

For example, after clicking "two-side bolt points", the user can click to select a known line; then inputting the distance, clicking and positioning, or moving the mouse to the relative distance between the known line and the adding point, and clicking the mouse, so that the system can draw a parallel line which takes a straight line as a reference edge and takes the relative distance between the known line and the adding point as the distance; if the position of the parallel line positioned after the distance is input is opposite to the actual position, clicking to change the edge, and then changing the position; in the same way, the user selects another known line, and the system draws a parallel line; the intersection point of the two parallel lines is the position of the adding point; after the user clicks the intersection point, the system can pop up an attribute box, and if the user fills in the attribute and clicks for storage, the point addition is successful.

4. Passing point parallel reference edge

And (3) crossing a point parallel reference edge, namely selecting a reference point as a starting point by the mouse, then selecting a reference edge, inputting a distance value, and determining the position of the target point by taking the crossing starting point as a line of the parallel reference edge by the system.

For example, the user clicks "cross-point parallel reference edge" to select a known point; the user inputs the distance, clicks and positions, or moves the mouse to the position of the relative distance between the known line and the adding point, clicks the mouse, and the system determines the position of the target point by taking a line which passes through the starting point and is parallel to the reference edge; if the position of the point positioned after the distance is input is opposite to the actual position, clicking to change the edge, and then changing the position of the point; and when the user clicks the added point, the system pops up an attribute box, and the user clicks and saves the attribute box.

That is, the distance between the known point and the added point is equal to the distance input by the user, and the straight line passing through the known point and the added point is parallel to the known line.

5. Passing point vertical reference edge

And (3) crossing a vertical reference edge, namely selecting a reference point by a mouse as a starting point, then selecting a reference edge, inputting a distance value, and determining the position of the target point by taking the crossing starting point as a line of the vertical reference edge by the system.

For example, the user clicks the "passing point vertical reference edge", clicks and selects a reference edge, and then selects the device point; inputting a distance by a user, clicking for positioning, or moving a mouse to a position with a relative distance between a known line and an adding point, clicking the mouse, and determining the position of a target point by taking a line passing through a starting point and being vertical to a reference edge by a system; if the position of the point positioned after the distance is input is opposite to the actual position, clicking to change the edge, and then changing the position of the point; and when the user clicks the added point, the system pops up an attribute box, and the user clicks and saves the attribute box.

That is, the distance between the reference point and the added point is equal to the distance input by the user, and a straight line passing through the reference point and the added point is perpendicular to the reference line.

6. Angle bolt point

The angle key point, namely the mouse selects a reference edge, then selects the reference point A to determine the position of the target point B according to the distance from the reference point A and the angle between the reference edge and the straight line between the reference point A and the target point B.

For example, the user clicks an angle bolt point, clicks and selects one side according to the prompt of the system, and then selects the starting point or the end point of the pipe section; the user inputs the angle value and the distance, clicks and positions, and finishes filling in the attribute to store, namely the point is added successfully.

That is, the distance between the reference point and the added point is equal to the distance input by the user, and the angle between the straight line passing through the reference point and the added point and the reference edge is the angle value input by the user.

(IV) adding line

Addition line, i.e. addition line. When the user clicks the 'adding line', the system can pop up a click point, two-point bolt points and two-side bolt points for the user to click.

For example, the user selects the tube point type of the starting point, and then clicks one of three functions of clicking the point, two-point bolting point and two-side bolting point, which is the same as the function of adding the point, so that the user can add the starting point. After the initial point is added successfully, the user selects the type of the pipe point at the end point of the line end, and moves a mouse to add the end point, or inputs the length and the angle to directly position and add. The user can select to complete, quickly complete, withdraw, save or cancel by clicking the right mouse button. After the user clicks and confirms, the attribute information of the pipeline point and the pipeline section can be filled in sequence, then the system pops up a confirmation window, and the pipeline is successfully added after the user clicks and confirms. Of course, multiple lines can be added continuously in the same way. If the attribute is not required to be input when the line is added, the attribute can be selected to be quickly finished, an attribute box cannot be popped up, the drawn pipeline is directly put in storage, and the attribute can be edited in batches after all the drawn pipelines are completely drawn. A user clicks on a pullback to retract a short section of the pipeline. The user clicks cancel to cancel the operation of adding the line.

(V) adding pipe points on the line

Adding pipe points on the line, namely adding pipe points on one pipeline.

For example, a user clicks a 'adding pipe point on a line', clicks and selects a line needing to be added, then drags the pipe point to move on the line through a mouse, drags the pipe point to a proper position, clicks a right button to store, records attribute information, and successfully adds the attribute information after storing; the position of the point can be switched by clicking the edge change, and the right key is saved and the attribute is added after the switching; or click positioning can be carried out by inputting the length; clicking the edge change to switch the position of the end point, saving the right button after switching, popping up an attribute frame of the added point, and saving the added attribute.

(VI) two-point connection line

For example, after the user clicks the "two-point connection line", the system may pop up a prompt box for clicking a selection point, and the user may click a left button to select two points, and may also continuously select multiple points for connection; and then the user can click a right button to select the completion, the system pops up an attribute box to enable the user to add the attribute, and if the user selects the completion quickly, the system does not pop up the attribute box.

(VII) delete the dotted line

For example, when the user clicks "delete dotted line", the system pops up a prompt box for clicking the delete dotted line. If the point is the deletion point, the user can click to select the deletion point, the system pops up a confirmation box, and the point is deleted after the user clicks to confirm. It should be noted that if a line endpoint or a triple endpoint is deleted, the system defaults to delete the line connected by the endpoint in order to maintain the topological relation; if the line segment intermediate points are deleted, the system automatically connects to a pipeline by default. If the line is deleted, the user can click to select the deleted line, the system pops up a confirmation box, the user can select whether only the deleted line does not delete the isolated point of the line end or delete the line and delete the isolated point of the line end at the same time, and the line is deleted after the point confirmation is selected.

(eight) batch deletion of dot-line

For example, after the user clicks "delete the dotted line in batches", the system will pop up the operation box of deleting the dotted line in batches, at this moment the system can read out all apparatuses in the current range by default; the user selects the equipment to be deleted, inputs the equipment condition, selects the range, and the system performs screening according to the equipment condition and displays the query result; a user double-click may locate and view each device attribute. The user selects the equipment to be deleted, and clicks the deletion, and the system pops up a confirmation box; the user clicks the ok button and the selected devices are all deleted.

(nine) set dot type

And setting a pipe point type, and mainly replacing the equipment type.

For example, after the user clicks the "set management point type", the system pops up an operation box; the user can click the selection point according to the prompt and select the replacement type; and when the user clicks for replacement, the system can pop up an attribute box of the new management point, and after the user fills in the attribute and stores the attribute, the type of the management point is changed successfully.

(ten) attribute brush

And the attribute brush is mainly used for replacing the attributes of the equipment into the attributes of standard equipment in batches. It should be noted that the attribute brush can only be used in the same type of device.

For example, after the user clicks the "attribute brush", the system pops up a prompt box for clicking the query entity; clicking the selection equipment by a user, popping up an operation box by the system, and checking the attribute field to be replaced by the user; and then the user selects the range, the system pops up a confirmation box, and the user clicks to determine the range. After the attribute replacement is determined to be completed, the system can pop up a prompt that the data update is successful.

(eleven) edit Property-click query

Editing properties-clicking queries, mainly edit the properties of a specified pipe point or pipe segment, and can modify the properties of a single device.

For example, the user clicks "edit attribute-click query", and the system pops up a prompt box for clicking the query attribute; and the user edits the attribute, and clicks to save, so that the attribute editing is finished.

(twelve) edit Attribute-Condition query

Editing attribute-condition query, which is mainly to perform batch editing on the attributes of the pipe points or pipe sections meeting the condition range.

For example, the user clicks "edit attribute-condition query", and the system pops up an operation box; the user can select the type of the equipment to be edited, then the condition and the range are input, and after the system pops up the equipment list, the user can perform double-click positioning and modify the attribute. The user may also select more devices, such as clicking an edit button to activate to an edit state, performing attribute editing, and clicking to save after editing is completed.

(thirteen) Attribute replacement

And attribute replacement, which is mainly to set conditions to inquire the equipment data meeting the conditions and replace the attributes of the inquired equipment.

For example, the user clicks 'attribute replacement', and the system pops up an operation box; a user selects equipment for attribute replacement, and then inputs conditions and a query range; the user clicks a data viewing button, the system can pop up all pipe networks meeting the query conditions, and the user can locate and view the information of each device by double clicking; the user checks the equipment with the attribute to be replaced and then returns to the operation box; and inputting the attribute to be replaced by the user in the attribute editing process, clicking to modify the attribute, and then prompting that the attribute editing is successful by the system.

(fourteen) merge points

And the merging point is mainly used for merging the two pipe points and simultaneously connecting the pipe networks connected with the two pipe points together so as to maintain the connectivity of the pipe networks.

For example, after the user clicks the merge point, the system pops up the operation box of the merge point; the user clicks and selects the pipe point to be moved, the system pops up the information of the pipe point to be moved, and meanwhile, the state of the pipe point to be moved is changed from an invalid point to a valid point; similarly, the user selects a target management point; clicking a merging tube point button by a user; the system prompts that the merging is successful and merges the tube points to be moved to the target tube points.

(fifteen) extending the pipe point to the pipeline

Extending the pipe points to the pipelines mainly comprises extending the pipe points and the connected pipelines in the direction of the pipelines, and breaking the pipelines at the positions where the pipe points and the connected pipelines intersect with other pipelines to generate topological relation.

For example, after the user clicks "extend pipe point to pipe", the system pops up the operation box; clicking the selection pipe point by the user, popping up a prompt box for selecting the pipe point by the system, clicking the selection pipe point by the user, and changing the state of the target pipe point from an invalid point to a valid point; then, the user clicks a selection pipeline, and the target pipeline is changed from an invalid point to a valid point; finally, the user clicks the extension pipe point to the pipe section, and the operation is successful.

It should be noted that, when this function is used, the connection degree of the target pipe point must be 1, and the pipe point is located at an intersection point with the target pipe line in the extending direction of the pipe line.

(sixteen) extending the endpoints to the pipeline

Extending the end points to the pipeline, primarily to connect the pipe points at different angles to a single pipeline.

For example, the user selects the device type of the other end point of the addition line in the legend list, and then clicks "extend end point to pipeline", and the system pops up the operation box; clicking the selection pipe point by the user, popping up a prompt box for selecting the pipe point by the system, clicking the selection pipe point by the user, and changing the state of the target pipe point from an invalid point to a valid point; then, the user clicks a selection pipeline, and the target pipeline is changed from an invalid point to a valid point; the user can determine the position of the point by dragging the point on the line with the mouse, and can also confirm the position of the added point after clicking and positioning by inputting an angle or a length; and the system pops up the attribute frames of the added points and lines, and the user records the attributes and then saves the attributes, namely the addition is completed.

(seventeen) wire breakage

The broken line can be divided into single line breaking and cross line breaking. Single line breaks, breaking the pipeline primarily according to the selected point. The intersecting line breaking is mainly automatically performed at the intersecting point according to the two selected intersecting pipelines.

For example, after the user clicks "break", the system pops up "break by single line" and "break by cross line" for the user to select.

If the user selects the single line interruption, the system can pop up a prompt of clicking the selected point; after the user selects, the selected point can be changed into red; after the user selects the point, the system pops up a prompt of clicking the selected line, the user clicks and selects the line needing to be interrupted, and at the moment, the system pops up a determination frame; after the user click is determined, the pipeline is broken into two pipe segments by the pipe point, but the properties are still the same as before the break.

If the user selects the intersecting line interrupting system, a prompt of clicking the selected line can be popped up; the user selects the type of the pipeline point to be interrupted, clicks and selects the pipeline to be interrupted, the selected line can be changed into red, and then continues to select another line intersected with the selected line; if the user chooses to interrupt, a management point will appear to interrupt the interrupt; and popping up an attribute box by the system, and inputting and storing the attribute by the user.

(eighteen) revocation

The revocation can mainly support the revocation of the addition and deletion operations.

For example, after the user clicks "revocation", the system pops up a revocation list; and (4) selecting the item to be cancelled by the user, and clicking to cancel.

As shown in fig. 2, an embodiment of the present invention provides an online pipe network editing system for executing any one of the above online gas pipe network editing methods, which may include:

a display unit 201;

the importing unit 202 is configured to import gas pipe network data when an external importing request for preset gas pipe network data is received, where the gas pipe network data includes a plurality of objects and attributes of the objects;

the configuration unit 203 is configured to configure a gas pipe network schematic according to the gas pipe network data, where in the gas pipe network schematic, each object in the gas pipe network data is identified by its legend view, and the configuration information of each object is consistent with its attribute, and the display unit 201 is controlled to display the gas pipe network schematic through a webpage;

the online editing unit 204 is configured to, when it is monitored that a pipe network editing function of the pipe network online editing system is triggered externally, control the display unit 201 to display a legend view and preset editing tools of each preset object through a webpage; after any editing tool is monitored to be triggered externally, the currently displayed gas pipe network schematic diagram is changed according to the preset online editing function of the editing tool and external editing operation, and the display unit 201 is controlled to display the changed gas pipe network schematic diagram through a webpage.

The information interaction, execution process and other contents between the units in the system are based on the same concept as the method embodiment of the present invention, and specific contents can be referred to the description in the method embodiment of the present invention, and are not described herein again.

Furthermore, an embodiment of the present invention provides a readable medium, which includes an execution instruction, and when a processor of a storage controller executes the execution instruction, the storage controller executes any one of the above-mentioned gas pipe network online editing methods.

Further, an embodiment of the present invention provides a memory controller including: a processor, a memory, and a bus;

the memory is used for storing execution instructions, the processor is connected with the memory through the bus, and when the storage controller runs, the processor executes the execution instructions stored in the memory, so that the storage controller executes any one of the gas pipe network online editing methods.

In summary, the embodiments of the present invention have at least the following advantages:

1. in the embodiment of the invention, the importing is executed when an external request is imported into preset gas pipe network data, and the gas pipe network data comprises a plurality of objects and attributes thereof; configuring a gas pipe network schematic diagram according to the gas pipe network data, and displaying the gas pipe network schematic diagram through a webpage, wherein in the gas pipe network schematic diagram, each object is identified by a legend view, and the configuration information of each object is consistent with the attribute of each object; when the pipe network editing function is triggered externally, displaying the legend view of each preset object and each preset editing tool through a webpage; and after any editing tool is triggered externally, according to the online editing function of the editing tool and the external editing operation, the currently displayed gas pipe network schematic diagram is changed and displayed through a webpage. And displaying a targeted legend view and an editing tool to the user so as to meet the online editing requirement of the user and simplify the online editing operation of the user, so that the editing efficiency is improved and the user experience is good.

2. In the embodiment of the invention, the inspection operation can be automatically executed, the gas pipe network schematic diagram can be automatically configured without manual configuration of a user, the user only needs to set the gas pipe network data in advance, and the manpower input is greatly reduced, so that the method is particularly suitable for application scenes with large data volume and complex schematic diagram. In addition, human errors easily caused by artificial drawing are correspondingly reduced.

3. In the embodiment of the invention, in the configured gas pipe network schematic diagram, not only the gas pipe network diagram is displayed, but also a topographic map matched with the gas pipe network diagram is displayed on the lower layer of the gas pipe network diagram. Because can sign road, river, district etc. in the topographic map, so, when cooperating the topographic map to see the gas pipe net picture, the user can have more directly perceived, accurate understanding to the condition of laying of gas pipe net, and the picture effect of seeing is better, and it is more convenient to operate.

4. In the embodiment of the invention, the pipe network online editing system is a special tool for the comprehensive management of the gas pipe network, so that various targeted legend views and editing tools are provided for users on the display page of the pipe network online editing system to meet the online editing requirements of the users, the online editing operation of the users is simplified, the editing efficiency is greatly improved, the user experience is good, and the overall period of the comprehensive management of the gas pipe network is greatly shortened.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Those of ordinary skill in the art will understand that: all or part of the steps for realizing the method embodiments can be completed by hardware related to program instructions, the program can be stored in a computer readable storage medium, and the program executes the steps comprising the method embodiments when executed; and the aforementioned storage medium includes: ROM, RAM, magnetic or optical disks, etc. that can store program codes.

Finally, it is to be noted that: the above description is only a preferred embodiment of the present invention, and is only used to illustrate the technical solutions of the present invention, and not to limit the protection scope of the present invention. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention shall fall within the protection scope of the present invention.

Claims (10)

1. A gas pipe network online editing method is characterized in that the method is applied to a pipe network online editing system and comprises the following steps:

when an external import request aiming at preset gas pipe network data is received, importing the gas pipe network data, wherein the gas pipe network data comprises a plurality of objects and the attributes of the objects;

configuring a gas pipe network schematic diagram according to the gas pipe network data, wherein in the gas pipe network schematic diagram, each object in the gas pipe network data is identified by a legend view thereof, and configuration information of each object is consistent with the attribute thereof;

displaying the gas pipe network schematic diagram through a webpage;

when the pipe network editing function of the pipe network online editing system is monitored to be triggered externally, a legend view and preset editing tools of each preset object are displayed through a webpage;

after any editing tool is monitored to be externally triggered, the currently displayed gas pipe network schematic diagram is changed according to the preset online editing function of the editing tool and the external editing operation;

and displaying the changed gas pipe network schematic diagram through a webpage.

2. The method of claim 1,

the attributes include: at least one of a home point number, a component type, a device type, an abscissa, an ordinate, a type of the tube point object, or at least one of a home point number, a top point number, a component type, a device type, a pressure level of the tube point object.

3. The method of claim 1,

each preset object comprises: at least one pipe point object of a valve, a water condensing cylinder, a gas carrying point, an empty node, a gas source point, a flow meter, a detection point, a node, a yard point, a civil user, a commercial and commercial company, a cathode protection device, a pressure regulating device and a topological point.

4. The method of claim 1,

each of the preset editing tools includes: moving points, moving points along a line, adding points, adding lines, adding pipe points on the line, connecting two points, modifying angles, deleting point lines in batches, setting pipe point types, brushing attributes, merging pipe points to pipelines, editing topographic maps, maintaining pipe lengths, editing attributes for click queries, editing attributes for condition queries, editing along the line, replacing attributes, merging points, extending pipe points to pipe sections, extending end points to pipe sections, breaking lines and canceling.

5. The method of claim 4,

after the external triggering operation aiming at any editing tool is monitored, the currently displayed gas pipe network schematic diagram is changed according to the preset online editing function of the editing tool and the external editing operation, and the method comprises the following steps:

when an editing tool of adding points triggered externally is monitored, five sub-editing tools of clicking a point, two-point bolt points, two-side bolt points, a cross-point parallel reference edge, a cross-point vertical reference edge and bolt points according to angles are displayed through a webpage, and when any sub-editing tool triggered externally is monitored, a pipe point object is added to a currently displayed gas pipe network schematic diagram according to the preset online editing function of the sub-editing tool and the external editing operation;

or the like, or a combination thereof,

when the editing tool of an external trigger addition line is monitored, three sub-editing tools, namely a click point, two-point bolt points and two-side bolt points, are displayed through a webpage, and when any one sub-editing tool of the external trigger is monitored, a pipeline object is added to the currently displayed gas pipe network schematic diagram according to the preset online editing function of the sub-editing tool and the external editing operation.

6. The method of claim 1,

the data type of the gas pipe network data is Excel worksheet data;

the gas pipe network data includes: gas pipeline data in the point table and/or gas pipeline data in the line table;

after receiving the import request and before configuring the gas pipe network schematic diagram, the method further includes: performing data inspection according to a preset data inspection rule so as to inspect the format and filling content of each object in the gas pipe network data; if the check fails, displaying each checked object which fails to pass the check and the error details thereof through the webpage, and ending the current process; and if the check is passed, executing the configuration gas pipe network schematic diagram.

7. The method of claim 6,

the data checking rules include at least one of the following rule items:

a first sheet page for identifying a point table and a second sheet page for identifying a line table exist in the Excel document, and the first sheet page is before the second sheet page;

the attribute fields in the point table are not repeated;

the attribute fields in the line table are not repeated;

the local point number and the upper point number in the line table exist in the point table;

the local point number of any pipe section in the line table is different from the previous point number;

the number of the point in the point table is unique;

the field contents of the point number, the component type, the equipment type, the abscissa, the ordinate and the type in the point table are all not empty, and the field contents meet the standard specification;

the field contents of the local point number, the upper point number, the component type, the equipment type and the pressure level in the line table are all not empty, and the field contents meet the standard specification;

the component types in the point table comprise nodes, valves, pressure regulating equipment, water condensing cylinders, civil households, industrial and commercial businesses, cathode protection equipment, courtyard points and air source points, and different component types respectively correspond to different layer names;

the component types in the line chart are pipe sections.

8. The method according to any one of claims 1 to 7,

the gas pipe network schematic diagram includes: the gas pipeline network diagram and a topographic map which is positioned at the lower layer of the gas pipeline network diagram and is matched with the gas pipeline network diagram for use;

and all objects in the gas pipe network data are part or all of all objects in the gas pipe network diagram.

9. The method of claim 8,

the webpage display of the gas pipe network schematic diagram comprises: displaying the gas pipe network schematic diagram through a webpage, and highlighting a legend view of each object in the gas pipe network data;

and after the displaying of the gas pipe network schematic diagram through the webpage, further comprising: when a clear button of the pipe network online editing system is monitored to be triggered externally, all the existing highlighting effects are eliminated; when the task management function of the online pipeline network editing system is monitored to be triggered externally, each imported gas pipeline network data is displayed through a webpage; when any imported gas pipe network data is monitored through external triggering, the legend view of each object in the gas pipe network data is highlighted in the currently displayed gas pipe network schematic diagram; when it is monitored that an external request is sent to delete any imported gas pipe network data, the legend view of each object in the gas pipe network data in the currently displayed gas pipe network schematic diagram is cleared.

10. A pipe network on-line editing system for performing the gas pipe network on-line editing method according to any one of claims 1 to 9, comprising:

a display unit;

the gas pipe network data importing device comprises an importing unit and a processing unit, wherein the importing unit is used for importing gas pipe network data when an importing request aiming at preset gas pipe network data from the outside is received, and the gas pipe network data comprises a plurality of objects and the attributes of the objects;

the configuration unit is used for configuring a gas pipe network schematic diagram according to the gas pipe network data, wherein in the gas pipe network schematic diagram, each object in the gas pipe network data is identified by a legend view, the configuration information of each object is consistent with the attribute of each object, and the display unit is controlled to display the gas pipe network schematic diagram through a webpage;

the online editing unit is used for controlling the display unit to display the legend view and the preset editing tools of each preset object through a webpage when the pipe network editing function of the pipe network online editing system is monitored to be triggered externally; and after any editing tool is monitored to be externally triggered, the currently displayed gas pipe network schematic diagram is changed according to the preset online editing function of the editing tool and the external editing operation, and the display unit is controlled to display the changed gas pipe network schematic diagram through a webpage.

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