CN112861230A - Image progress display system and implementation method thereof - Google Patents

Abstract

The invention relates to an image progress display system and an implementation method thereof, which are used for assisting in managing the operation of construction units and road bureau operation and maintenance units. Through adopting image progress show module to show respectively to each engineering section of whole construction, both vivid, succinct clear again, each equipment status and relevant information in the plane device picture that can real-time update image progress simultaneously, thereby can vividly and in time manage the control construction or overhaul the progress, greatly improve the management and control dynamics of construction or maintenance progress, improve the whole efficiency of construction.

Description

Image progress display system and implementation method thereof

Technical Field

The invention relates to the technical field of construction or maintenance progress control, in particular to an image progress display system and an implementation method thereof.

Background

At present, the infrastructure construction of China has attracted attention, and particularly, the technical achievements in the aspects of railway suggestions such as high-speed rails, subways and other road administration projects are more and more rapidly developed. In current construction or maintenance process, need control and the dispatch to construction or maintenance progress usually, do whole global progress management and control to whole construction or maintenance engineering promptly to each item engineering implementation of whole construction or maintenance route is arranged to better overall.

The traditional construction or overhaul schedule usually draws a route on a white board and sets some physical signs to represent the progress of each location. Some also use an electronic form to document progress. However, these are limited to the viewing and editing of individuals, and the updating of data can only be performed regularly, and the data cannot be updated in real time, and many people cannot see the updating situation of each base project at the same time. Moreover, the traditional schedule can not vividly and concisely show the construction or maintenance progress, the time and labor are wasted in checking and editing, the management of the construction or maintenance progress is not timely, and the overall working efficiency is affected.

Disclosure of Invention

In view of this, a system for displaying the progress of construction or maintenance and a method for implementing the same are provided, which can visually and timely manage the progress of construction or maintenance, greatly improve the management and control of the progress of construction or maintenance, and improve the overall efficiency of construction.

A visual progress display system for assisting in managing operations of construction units and road bureau operation and maintenance units includes a visual progress display module and a visual progress update module, the visual progress display module including a planar device diagram set according to a predetermined route, the visual progress display module displaying equipment and status and data information thereof in the route through the planar device diagram, the visual progress update module updating the equipment and status and data information thereof in the planar device diagram according to changes of each element in an actual route.

Further, the figure progress display system further comprises a figure progress generation module for generating a plane device diagram for displaying the figure progress, wherein the figure progress generation module comprises one of the following generation modes:

(1) importing the data through an excel table, txt or word;

(2) importing through CAD;

(3) by manual editing.

Further, the plan view includes at least any one of the following elements:

1) the identification of equipment or devices, the equipment or devices include a support, a positioning device, a contact suspension, an elastic sling, a central anchor knot, a compensation device, an anchor-lowering device, an additional suspension anchor, a segmented insulator, a split-phase insulator, an electrical connection, a cross line fork, a cross-free fork, an anchor segment joint, an articulated electrical split-phase, a device-type split-phase, a soft cross, a hard cross, an isolating switch, a lightning arrester, a grounding device, an insulator, an in-tunnel rigid suspension, an additional suspension anchor segment, a PW line, a tunnel portal PW line opposite anchor, a return line, a power supply line, a JQ line or GW line, a cable and accessories thereof, an upper line, a signboard, a support grounding, a geomagnetic induction device, an electrical loop temperature, a component and factory, environmental management and accessory equipment, and any combination of more than two of security devices;

2) and character identification added through the icon image editing module.

Further, the plurality of identifiers are preset on a plane device diagram of the image progress display module, the route comprises a construction route or an overhaul route, the identifiers comprise identifiers and character identifiers of various devices or devices recording construction or overhaul progress, the image progress diagram comprises a plane device diagram and a plurality of identifiers corresponding to various actual engineering positions, each identifier is a virtual button, each identifier has a plurality of colors, a plurality of brightnesses, a plurality of forms or a plurality of dynamic change forms, each color, brightness, form or dynamic change form respectively indicates a specific state of the device or device, and the specific state at least comprises a 'finished' state ', an' unfinished 'state', a 'problem to be solved', a 'problem to be treated' or an 'other uncertain state'.

Further, the image progress display system further comprises an icon image editing module, the icon image editing module is used for adding or deleting marks and editing marks in the plane device graph, the icon image editing module is displayed in a floating window or hidden window mode around the image progress display module, the icon image editing module comprises an icon library module, the icon library module is provided with graphic marks and character marks and used for selecting corresponding marks to be added in the plane device graph, the icon image editing module is provided with a mark state editing popup window module, the icon image editing module enters the icon editing popup window through clicking the icon image editing module, and visual editing of the marks is carried out through the icon editing popup window.

Further, equipment or device identification and character identification are arranged in the icon library module, the equipment or device identification comprises a pillar identification, an anchor identification, a non-compensation chain-shaped suspension anchor identification, a full-compensation chain-shaped suspension anchor identification, a guide anchor section identification, a center anchor joint identification, a normally-open electric isolating switch identification, a normally-closed electric isolating switch identification, a bridge identification and a hard beam identification, each identification comprises at least one identification, each identification is displayed in a plane device diagram in a virtual button mode, each identification is provided with one or more contact-capable patterns, each contact-capable pattern is a virtual contact, and corresponding identification content editing and query are achieved by clicking the virtual contact.

Furthermore, the icon image editing module is provided with a storage module, a deleting module and an editing moving module, wherein the storage module is used for generating corresponding graphs and characters after marks are added in the plane device diagram, storing the graphs and the characters into the space database according to the mark types and the corresponding position points and refreshing the plane device diagram picture, the deleting module is used for deleting corresponding data in the space database according to the marks and the position points and refreshing the plane device diagram picture after any mark in the plane device diagram is deleted, and the editing moving module is used for editing the character content of the marks, updating the corresponding data in the space database according to the unified ID of the characters and updating the character content in the plane device diagram.

Furthermore, the image progress updating module comprises an automatic updating module and a manual updating module, the automatic updating module is connected with the mobile terminal, construction or maintenance progress data related to the identification is newly built through the mobile terminal, after the corresponding construction or maintenance progress data content is completed, clicking is completed, and the completion state of the corresponding identification is updated to the image progress display module.

The system further comprises an inquiry module and a positioning module, wherein the inquiry module is used for searching the identification of the target equipment or device through the interval, the pole number, the mileage, the GPS coordinate, the equipment or the device along the construction or maintenance line; the positioning module is used for positioning the target equipment or device identification according to the interval, the pole number, the mileage, the GPS coordinate, and the equipment or device along the construction or maintenance line.

Further, the system also comprises a viewing detail module, wherein the query detail module is used for clicking the equipment or device identification in the plane device diagram to view detailed information of the equipment or device identification, and the detailed information comprises the manufacturer of the equipment and the size of the equipment.

And, a character progress display implementing method, which is performed by the character progress display system as described above, comprising the steps of:

importing data files of various projects, position points and states of a route into a spatial database, wherein the data files comprise at least one of excel files, txt files, word files and CAD files;

generating an identifier according to a data file in a spatial database, wherein the identifier comprises various equipment or device identifiers and character identifiers;

publishing data in a spatial database into map service, loading the map service in a page form, and generating a plane device diagram corresponding to a route, wherein engineering marks corresponding to the actual states of all elements in the route are formed on the plane device diagram;

and updating the identification, the state and the data information in the plane device graph in real time according to the change of each element in the actual route to form a real-time construction or overhaul image graph.

In a preferred scheme, the state and the content of the engineering mark generated on the plane device diagram are edited synchronously, the plane device diagram is updated in real time, and after each updating step, the real-time construction or repair pictogram and the spatial database are further imported into the preset business data for viewing and analysis.

The image progress display system and the image progress display method are characterized in that the image progress display module is adopted to respectively display all construction engineering sections, so that the image progress display system is not only vivid, but also concise and clear, a user can quickly and clearly know the whole construction or overhaul progress and all the engineering progress conditions of all points, the icon library module is arranged, standard marks are adopted, uniform marks are conveniently formed, and the construction or overhaul progress conditions are more quickly and visually displayed. In addition, still have the editing module 31 and icon image editing module, can edit the construction or the maintenance progress of each point immediately, update the sign state, and the form of sign, color etc. all can be edited and revised or delete the waiting operation, convenient operation is swift, can in time update the sign in the picture, so that look over real-time construction situation, thereby can control the construction or overhaul the progress ability vividly and in time, greatly improve the management and control degree of construction or maintenance progress, improve the whole efficiency of construction.

Drawings

Fig. 1 is a block diagram of a character progress presentation system according to an embodiment of the present invention.

FIG. 2 is a schematic view of a plane device in the avatar progress presentation system according to an embodiment of the present invention

Fig. 3 is a schematic diagram of a pillar identification structure of the image progress display system according to the embodiment of the invention.

Fig. 4 is a schematic diagram of a pair anchor identification structure of the image progress display system according to the embodiment of the invention.

Fig. 5 is a schematic view of a guide anchor identification structure of the image progress display system according to the embodiment of the present invention.

Fig. 6 is a flow chart of an image progress display implementation method according to an embodiment of the present invention.

Detailed Description

The present invention will be described in detail below with reference to specific embodiments and the accompanying drawings.

Referring to fig. 1, a visual progress display system 100 according to an embodiment of the present invention is shown, which is used for assisting in managing operations of construction units and road bureau operation and maintenance units, and includes a visual progress display module 10 and a visual progress update module 20, where the visual progress display module 10 includes a planar device diagram set according to a predetermined route, the visual progress display module 10 displays equipment in the route and status and data information thereof through the planar device diagram, and the visual progress update module 20 updates the equipment in the planar device diagram and status and data information thereof according to changes of elements in an actual route. The operation of the construction unit and the road bureau operation and maintenance unit includes, but is not limited to, the operation of various relevant units or road bureaus such as railways, highways, subways, and the like.

Specifically, the avatar progress display system 100 further includes an avatar progress generating module 30 for generating a plan device diagram for displaying avatar progress, and the avatar progress generating module 30 includes one of the following generating manners:

(1) importing the data through an excel table, txt or word;

(2) importing through CAD;

(3) by manual editing.

Taking excel table import as an example, an excel template according to a web page is downloaded, various information of identification is input according to the excel template requirement, an information excel file is generated, the information excel file is uploaded to the web page, and after checking that the excel content is correct, data is imported to a spatial database so as to be used for generating a planar device diagram. In a specific embodiment, the import may be in a form of any combination of two or more of excel table, txt and word, or in a form of a mixture of two or more of the above manners (1), (2) and (3), for example, some of the manners (1) and (2) cannot be imported in time, and the import may be manually edited at any time, or manually edited during the import process to assist the import.

When the CAD import is adopted, the system 100 further includes a CAD drawing generation image progress data module 35, which is used for drawing a plan device drawing track of a construction section or a station as required by a CAD application program, importing the CAD drawing into a spatial database, publishing data in the spatial database into a map service by a map engine, and loading the map service to a web page to generate a plan device drawing. Of course, other types of import may also use the map engine to publish the data in the spatial database as a map service, or may use other methods to implement the steps of generating the map.

Further, the character progress presentation system 100 further includes an icon character editing module 31, and the icon character editing module 31 is regarded as a part of the character progress generating module 30, for example, the icon can be edited when the planar device diagram is generated, or a new planar device diagram can be generated after the icon is edited. Icon image editing module 31 is arranged in adding or deleting the sign and the edit sign in the plane device picture, icon image editing module 31 is in with floating window or hidden window form show image progress display module 10's periphery, icon image editing module 31 includes icon library module 32, icon library module 12 has graphical identification, characters sign to supply to select corresponding sign and add in the plane device picture, icon image editing module 31 still has sign state editing popup window module for through clicking icon image editing module 31 entering icon editing popup window, carry out the visual editing of sign through icon editing popup window.

Specifically, the icon library module 32 is internally provided with an equipment or device identifier and a character identifier, the equipment or device identifier is the identifier, and mainly comprises a pillar identifier, a pair anchor identifier, a compensation-free chain-shaped suspension anchor identifier, a full compensation chain-shaped suspension anchor identifier, a guide anchor segment identifier, a central anchor joint identifier, a normally open electric isolating switch identifier, a normally closed electric isolating switch identifier, a bridge identifier and a hard beam identifier, wherein each identifier comprises at least one identifier, each identifier is displayed in a plane device diagram in a virtual button mode, each identifier is provided with one or more contact-clickable images, each contact-clickable image is a virtual contact, and corresponding identifier content editing and query are achieved by clicking the virtual contact.

Furthermore, the icon image editing module 31 further has a storage module, a deletion module and an editing moving module, the storage module is used for generating corresponding graphics and characters after adding the identifier in the planar device diagram, storing the graphics and characters in the spatial database according to the identifier type and the corresponding location point, and refreshing the planar device diagram, the deletion module deletes corresponding data in the spatial database according to the identifier and the location point and refreshes the planar device diagram after deleting any identifier in the planar device diagram, the editing moving module is used for editing the content of the identifier, and updates corresponding data in the spatial database according to the unified ID of the characters, and the content of the characters in the planar device diagram.

The image progress updating module 20 comprises an automatic updating module 21 and a manual updating module 22, the automatic updating module 21 is connected with the mobile terminal, construction or maintenance process data related to the identification is newly built through the mobile terminal, after corresponding construction or maintenance process data content is completed, clicking is completed, and the completion state of the corresponding identification is updated to the image progress display module 10. The manual update module 22 performs the update operation directly by manual operation, i.e. manually on the planar device diagram interface. The figure progress updating module 20 realizes updating iteration of the whole plane device diagram or upgrading, for example, by updating line devices or devices on the line, and when new devices or devices are added, the figure progress updating module 21 and the manual updating module 22 are used for completing the updating. The data information such as the state, details and the like of the device or apparatus is updated by the automatic update module 21 and the manual update module 22.

As shown in fig. 2, a plurality of marks are preset on the plan view of the image progress display module 10, each mark is a virtual button, and the icon image editing module 31 is executed by clicking the corresponding virtual button to edit the state of the mark. The invention can also adopt another implementation mode: and generating a plane device diagram corresponding to the construction or overhaul route through html + css.

Specifically, the planar device diagram includes at least any one of the following elements:

1) the identification of equipment or devices, the equipment or devices include a support, a positioning device, a contact suspension, an elastic sling, a central anchor knot, a compensation device, an anchor-lowering device, an additional suspension anchor, a segmented insulator, a split-phase insulator, an electrical connection, a cross line fork, a cross-free fork, an anchor segment joint, an articulated electrical split-phase, a device-type split-phase, a soft cross, a hard cross, an isolating switch, a lightning arrester, a grounding device, an insulator, an in-tunnel rigid suspension, an additional suspension anchor segment, a PW line, a tunnel portal PW line opposite anchor, a return line, a power supply line, a JQ line or GW line, a cable and accessories thereof, an upper line, a signboard, a support grounding, a geomagnetic induction device, an electrical loop temperature, a component and factory, environmental management and accessory equipment, and any combination of more than two of security devices;

2) and character identification added through the icon image editing module.

Referring to fig. 2, a plan view of one embodiment of the present invention is shown. The image progress display module 10 is preset with a plurality of said identifiers on a plan device diagram, and the operation condition of the construction unit and the road bureau operation and maintenance unit is expressed by a plurality of different predetermined identifiers in the diagram. The figures show different devices or means by means of differently coloured labels, while the progress status is marked with a specific colour. For example, the pillar signs appearing more in fig. 2 are displayed in specific colors, such as blue, and are marked with characters, for example, the mileage positions of the devices or apparatuses, and specific larger places may also be marked with names, for example, power substations, belonging to larger devices, which are combinations including pillar signs, switch signs, and the like.

In practical applications, the route includes a construction route or an inspection route, and as mentioned above, the identifier includes identifiers and text identifiers of various devices or apparatuses for recording the progress of construction or inspection. The planar device diagram is provided with a plurality of identifiers corresponding to each actual project position, each identifier is a virtual button, each identifier has a plurality of colors, a plurality of brightnesses, a plurality of forms or a plurality of dynamic change forms, each color, brightness, form or dynamic change form respectively indicates a specific state where the equipment or device is currently located, and the specific state at least comprises a ' finished ' state, an ' unfinished ' state, a ' problem to be solved ' state to be treated ' state or other uncertain.

Specifically, as shown in fig. 3, a schematic structure diagram of a pillar logo is shown. The pillar mark comprises a circular block and a cylindrical block, wherein the circular block is divided into four equal parts, the four equal parts are respectively called a first quadrant block 21, a second quadrant block 22, a third quadrant block 23 and a fourth quadrant block 24 in the embodiment, and the cylindrical block 25 represents a pillar, a supporting arm, a wrist arm and the like in actual construction, so that the pillar mark is vivid, concise and clear. Further, each tile identifies the progress status of a different portion. For example, the first quadrant block 21 in the illustration is filled with color to indicate that the support post is properly aligned, and no color filling indicates that the alignment has not been completed. The second quadrant 22 is filled with color to indicate that the support post has been assembled, and no color is filled to indicate that the assembly has not been completed. The third quadrant 23 is filled with color to indicate that the additional line shoulder and the suspension porcelain have been installed, and no color filling indicates that the process has not been completed. The fourth quadrant block 24 is color filled to indicate that the wrist mount and the rod porcelain have been installed, and no color filling indicates that the process has not been completed. The lines of the cylindrical block 25 are colored wide or off-color to indicate that the wrist has been installed and no color fill indicates that the wrist has not been installed. Through the color and the filling mode, the construction or overhaul progress can be known at a glance, and various states of various projects can be displayed in detail and visually.

As shown in fig. 2, there are two struts 21a and 21b with color fill, for example, red fill, wherein the red fill at the left end in the fourth quadrant represents that the wrist mount and stick porcelain have been installed and the rest is unfilled, indicating that the corresponding work has not been completed.

Referring to fig. 4, a schematic diagram of an anchor identifier is shown. The pair of anchor marks comprises four strip-shaped blocks, wherein each strip-shaped block is provided with a contour line, each strip has a color, and the strip-shaped blocks can be filled with the colors. The present embodiment refers to the four bar-shaped blocks as a first bar-shaped block 31, a second bar-shaped block 32, a third bar-shaped block 33, and a fourth bar-shaped block 34, wherein the first bar-shaped block 31 and the third bar-shaped block 33 are longer than the second bar-shaped block 32 and the fourth bar-shaped block 34. Likewise, each bar block identifies the progress status of a different section. For example, assume that the first bar 31 has a color-widened line to represent that the anchor line has been laid out, and a line without a widened line represents that the laying out of the anchor line has not been completed. The second bar 32 is colored to be widened to indicate that the additional wire is already completed for the anchor base and for the anchor pulling wire, and no widening of the bar indicates that the additional wire is not yet completed. The third block 33 represents that the additional line of the anchor segment has been already spread by color widening, and the line has no widening, i.e. the spreading of the additional line of the anchor segment has not been completed. The fourth bar 34 has a line that is colored to be widened to indicate that the additional line has been butted and no widening of the line indicates that it has not been completed. Through the color and the filling mode, the condition of the anchor construction or overhaul progress can be known at a glance, and various states of various projects can be displayed in detail and visually.

Referring to fig. 2 in conjunction with fig. 4, there are a plurality of anchor mark pairs, one of which shows the degree of advance of the anchor mark 31a, and the first bar block and the third bar block of the anchor mark 31a are widened in red, which respectively shows that the two anchor segment additional lines have been laid out.

Referring to fig. 5, a schematic structural diagram of a guide anchor mark is shown. The guide anchor mark comprises two strip-shaped blocks, wherein each strip-shaped block is provided with a contour line, each line is provided with a color, and the strip-shaped blocks can be filled with the colors. In the embodiment, the two bar-shaped blocks are respectively called a left bar-shaped block 41 and a right bar-shaped block 42, the left bar-shaped block 41 is horizontal, the right bar-shaped block 42 is vertical, the left bar-shaped block 41 is on the left, and the right bar-shaped block 42 is on the right. Likewise, each bar block identifies the progress status of a different section. For example, assume that the left bar 41 has a color widening indicating that the anchor contact line has been laid out, and a line having no widening indicating that the laying out of the anchor contact line has not been completed. The lines of the right bar-shaped block 42 are widened by colors to represent that the ratchet wheel, the balance weight and the stay wire of the anchor post are finished, and the lines are not widened to represent that the anchor post ratchet wheel, the balance weight and the stay wire are not finished. Through the color and the filling mode, the construction or overhaul progress condition of the guide anchor can be known at a glance, and various states of various projects can be displayed in detail and visually.

Referring to fig. 2 in conjunction with fig. 5, there are a plurality of anchor guides, wherein two anchor guides 41a and 41b are shown with advance, and the right bar-shaped blocks of the two anchor guides 41a and 41b are both red and widened, which respectively indicate that the anchor column ratchet, weight and pull wire of the anchor section have been completed.

Therefore, various progress in construction or maintenance lines can be visually displayed through various marks or labels in the plane device diagram, and meanwhile, the device can be edited, updated, convenient to operate, concise and clear, better, faster and simpler to assist in managing the operation of a construction unit and a road bureau operation and maintenance unit, and the construction efficiency and quality are improved.

The system 100 further comprises a query module 11 and a positioning module 12, wherein the query module 11 is used for searching for a target device or apparatus identifier through construction or maintenance of intervals, pole numbers, mileage, GPS coordinates, devices or apparatuses along a line; the location module 12 is used to locate a target device or equipment identity based on an interval, pole number, mileage, GPS coordinates, device or equipment along the line of construction or overhaul.

In addition, the system 100 further includes a view details module 13, and the query details module 13 is configured to click on the device or apparatus identifier in the flat panel apparatus diagram to view details of the device or apparatus identifier, where the details include a manufacturer of the device, a size of the device, and the like. In this embodiment, the query module 11, the location module 12 and the view details module 13 are respectively incorporated in the avatar progress display module 10, and by clicking these modules, query content, location information, required details and the like can be displayed on the planar device diagram.

In addition, the embodiment of the present invention further provides a method for displaying image progress, which is performed by the image progress displaying system, and includes the following steps:

step S10, importing data files of various projects, location points and states of a route into a spatial database, wherein the data files comprise at least one of excel files, txt files, words and CAD files;

step S20, generating marks according to the data files in the spatial database, wherein the marks comprise various equipment or device marks and character marks;

step S30, publishing the data in the spatial database to map service, loading the map service in a page form, and generating a plane device diagram corresponding to the route, wherein the plane device diagram is formed with engineering marks corresponding to the actual states of each element in the route;

and step S40, updating the mark and the state and data information in the plane device diagram in real time according to the change of each element in the actual route, and forming a real-time construction or overhaul image diagram.

In a preferred scheme, the state and the content of the engineering mark generated on the plane device diagram are further edited synchronously, the plane device diagram is updated in real time, and after each updating step, the real-time construction or repair pictogram and the spatial database are further imported into the preset business data for viewing and analysis.

Specifically, as shown in fig. 6, a detailed flow of the avatar progress display implementation method is displayed, by which display, update, edit, delete, etc. of each logo, etc. in the plan device diagram are implemented. The method comprises the steps of firstly, initially importing data, wherein the data is derived from an created Excel table file, the Excel table file is provided with various information data such as various project names, construction scene names, position points and states of the whole construction project to be shown, the information data is imported into a spatial database, and then a graph is generated by means of the embodiment of the invention and is simultaneously connected to a map engine, so that a plane device graph can be switched to an actually constructed map, and a route and a progress situation are shown in a map form. Then loading the map to a Web page to generate a plane device diagram in a webpage form in the embodiment of the invention, then adding identification, performing image editing and graphic identification editing on the plane device diagram through each module and tool in the system of the invention to form a real-time plane device diagram, wherein the plane device diagram can be updated actually in a specific application process. When a new project is added subsequently, another Excel table file can be generated and imported into the spatial database, the graphic identifier is updated, a new plane device diagram is generated, and image editing and graphic identifier editing are performed to form an updated real-time plane device diagram.

After the data files are imported into the spatial database in the mode, the map engine publishes the data in the spatial database into map service, and then the map service is loaded to a web page to generate a plane device diagram. Of course, the present invention may also adopt another map implementation: and generating a plane device diagram corresponding to the construction or overhaul route through html + css.

Therefore, the image progress display system and the image progress display method are not only vivid, but also concise and clear by adopting the image progress display module 10 to respectively display all construction engineering sections, so that a user can quickly and clearly know the whole construction or overhaul progress and all project progress conditions of all points, and by arranging the image progress display module 10 and the image progress updating module 20 and adopting a plane device diagram, the unified identification is facilitated, and the construction or overhaul progress conditions are displayed more quickly and vividly. In addition, can edit the construction or the maintenance progress of each point immediately through editing module 31, update the progress state, and the form of progress, color etc. all can be edited and revised or delete the waiting operation, convenient operation is swift, can in time update progress form in the picture, so that look over real-time construction or maintenance situation, thereby can control construction or maintenance progress ability vividly and in time, greatly improve the management and control dynamics of construction or maintenance progress, improve the whole efficiency of construction.

It should be noted that the present invention is not limited to the above-mentioned embodiments, and other changes and modifications can be made by those skilled in the art according to the spirit of the present invention, and these changes and modifications made according to the spirit of the present invention should be included in the scope of the present invention as claimed.

Claims (12)

1. The utility model provides a figure progress display system for the operation of supplementary management construction unit and road bureau operation and maintenance unit, its characterized in that includes figure progress display module and figure progress update module, figure progress display module includes the planar device picture of setting according to predetermined route, figure progress display module passes through the planar device picture and shows equipment in the route and state and data information, figure progress update module updates equipment in the planar device picture and state and data information according to each key element change in the actual route.

2. The character progress presentation system of claim 1, further comprising a character progress generating module for generating a plan device diagram showing a character progress, the character progress generating module including one of the following generating manners:

(1) importing the data through an excel table, txt or word;

(2) importing through CAD;

(3) by manual editing.

3. The visual progress display system of claim 1, wherein the plan view includes at least any one of the following elements:

1) the identification of equipment or devices, the equipment or devices include a support, a positioning device, a contact suspension, an elastic sling, a central anchor knot, a compensation device, an anchor-lowering device, an additional suspension anchor, a segmented insulator, a split-phase insulator, an electrical connection, a cross line fork, a cross-free fork, an anchor segment joint, an articulated electrical split-phase, a device-type split-phase, a soft cross, a hard cross, an isolating switch, a lightning arrester, a grounding device, an insulator, an in-tunnel rigid suspension, an additional suspension anchor segment, a PW line, a tunnel portal PW line opposite anchor, a return line, a power supply line, a JQ line or GW line, a cable and accessories thereof, an upper line, a signboard, a support grounding, a geomagnetic induction device, an electrical loop temperature, a component and factory, environmental management and accessory equipment, and any combination of more than two of security devices;

2) and character identification added through the icon image editing module.

4. The character progress presentation system of claim 1, wherein a plurality of the marks are preset on a plan view of the character progress presentation module, the route comprises a construction route or a maintenance route, the identification comprises identification and character identification of various devices or devices recording construction or maintenance progress, the image progress chart comprises a plane device chart and a plurality of marks which are arranged on the plane device chart and correspond to each actual project position, each mark is a virtual button, each mark has a plurality of colors, a plurality of brightnesses, a plurality of forms or a plurality of dynamic change forms, each color, brightness, form or dynamic change form respectively indicates the current specific state of the equipment or device, the particular states include at least "complete", "incomplete", "problem pending", or "other indeterminate state".

5. The character progress presentation system of claim 1, further comprising an icon character editing module for adding or deleting a logo and an editing logo in a plan device drawing, the icon character editing module being presented at the periphery of the character progress presentation module in a floating window or hidden window form, the icon character editing module including an icon library module having a graphic logo, a text logo for selecting a corresponding logo to be added in a plan device drawing, the icon character editing module having a logo state editing popup module for entering an icon editing popup by clicking the icon character editing module, and performing visual editing of the logo through the icon editing popup.

6. The image progress display system of claim 5, wherein the icon library module has built-in device or apparatus identifiers and text identifiers, the device or apparatus identifiers include pillar identifiers, paired anchor identifiers, uncompensated chain-type hanging anchor identifiers, fully compensated chain-type hanging anchor identifiers, guided anchor segment identifiers, central anchor node identifiers, normally open electrically operated isolating switch identifiers, normally closed electrically operated isolating switch identifiers, bridge identifiers, and hard beam identifiers, each of the identifiers includes at least one identifier, each identifier is displayed in the form of a virtual button on the planar apparatus diagram, each identifier has one or more touch-clickable graphics, each touch-clickable graphic is a virtual contact, and corresponding identifier content editing and querying is performed by clicking the virtual contact.

7. The image progress presentation system of claim 5, wherein the icon image editing module has a saving module for generating corresponding figures and texts after adding marks in the plan device map, saving the figures and texts in the spatial database according to the mark types and corresponding location points, and refreshing the plan device map screen, a deleting module for deleting corresponding data in the spatial database according to the marks and the location points and refreshing the plan device map screen after deleting any mark in the plan device map, and an editing moving module for editing the marked text contents, updating corresponding data in the spatial database according to the uniform ID of the texts, and refreshing the text contents in the plan device map.

8. The character progress display system according to claim 1, wherein the character progress updating module comprises an automatic updating module and a manual updating module, the automatic updating module is connected with the mobile terminal, construction or overhaul process data related to the identification is newly created through the mobile terminal, after the corresponding construction or overhaul process data content is completed, the click is completed, and the completion status of the corresponding identification is updated to the character progress display module.

9. The visual progress display system of claim 1, further comprising a query module and a location module, the query module for locating a target device or equipment identification by construction or inspection along a line of intervals, pole numbers, mileage, GPS coordinates, devices or equipment; the positioning module is used for positioning the target equipment or device identification according to the interval, the pole number, the mileage, the GPS coordinate, and the equipment or device along the construction or maintenance line.

10. The visual progress presentation system of claim 1, further comprising a view details module for clicking on a device or apparatus identification in the plan apparatus diagram to view details of the device or apparatus identification, the details including a manufacturer of the device, a size of the device.

11. A character progress presentation realization method by the character progress presentation system according to any one of claims 1 to 10, characterized by comprising the steps of:

importing data files of various projects, position points and states of a route into a spatial database, wherein the data files comprise at least one of excel files, txt files, word files and CAD files;

generating an identifier according to a data file in a spatial database, wherein the identifier comprises various equipment or device identifiers and character identifiers;

publishing data in a spatial database into map service, loading the map service in a page form, and generating a plane device diagram corresponding to a route, wherein engineering marks corresponding to the actual states of all elements in the route are formed on the plane device diagram;

and updating the identification, the state and the data information in the plane device graph in real time according to the change of each element in the actual route to form a real-time construction or overhaul image graph.

12. The visual progress display realization method of claim 11, wherein the status and contents of the engineering mark that has been generated on the plan view are edited synchronously, the plan view is updated in real time, and after each updating step, the real-time construction or inspection pictogram and the spatial database are further imported into predetermined business data for viewing and analysis.

Images