CN109446664A - A kind of scene progress control display device system - Google Patents

Abstract

The present invention relates to project management technique field, especially a kind of live progress control display device system, including very three-dimensional engineering model establish module, for generating very three-dimensional engineering model；Progress makes a report on module, makes a report in real time to engineering progress data for construction personnel；Three-dimensional engineering model display module, the data correlation of module is made a report on the Cheng Jindu, and the construction speed information on very three-dimensional engineering model described in real-time update；Progress control module for the formulation or adjustment of administrative staff's project progress, and acts on the three-dimensional engineering model display module；Construction supplementary information module, the information for safety equipment and tool needed for obtaining the points for attention and construction of work progress；Electronic display receives the data of the three-dimensional engineering model display module, and passes through information needed for construction for site operation personnel.Information needed for the present invention can provide work progress for construction personnel, and administrative staff can be allowed to understand the progress of engineering in time.

Description

A kind of scene progress control display device system

Technical field

The present invention relates to project management technique field, especially a kind of live progress control display device system.

Background technique

The construction project time management of engineering project is the important link of project management, and traditional progress control method information is stagnant Afterwards, the features such as level of informatization is lower, the development of engineering constraint progress control level.Because heavy construction has difficulty of construction Greatly, the period is long, the feature more than operating personnel, so the problem of it can be faced in engineering construction in terms of many progresses and cost. Conventional method is to carry out cost control by first arranging project progress, then by progress.

In order to improve live progress control efficiency, in traditional construction project time management method, one is usually arranged at the scene A display board, for showing some information relevant to live progress, as project construction schedule, live practice of construction into The information such as degree, schedule variance.But traditional display board be usually it is hand-written, need writing of modifying daily, practical operation The Limited information that gets up very inconvenient, and can show cannot effectively reflect project progress situation, and pass through the above method pair When construction project time management, the progress that administrative staff complete construction personnel needs scene to understand or report by multilayer It obtains, administrative staff cannot obtain project progress situation in time, and due to the hysteresis quality of information, administrative staff increase project progress The difficulty formulated and adjusted, is unfavorable for the construction of engineering.

Summary of the invention

To solve the above-mentioned problems, a kind of live progress control display device system of the invention, can effectively apply Information needed for worker person provides work progress, and administrative staff can be allowed to understand the progress situation of engineering in time.

To achieve the goals above, the technical solution adopted by the present invention are as follows:

A kind of scene progress control display device system, including very engineering model establishes module to three-dimensional, BIM threedimensional model is built Formwork erection block, GIS three-dimensional land map establish module, progress makes a report on module, three-dimensional engineering model display module, progress control module, Construction supplementary information module, electronic display and data server,

The BIM three-dimension modeling module is used to establish by BIM threedimensional model of the software to engineering, and will BIM threedimensional model is divided into multiple engineering components, the engineering component and Practical Project position relative to and be able to carry out component Name, material, belonging positions, project amount, cost data input；

The GIS three-dimensional land map establishes module for site contour data by Smart3D software, to be carried out sky three and added Close calculating generates point cloud data, passes through the actual landform figure in point cloud data fabrication place；

The very three-dimensional engineering model establish module for by the data of the BIM three-dimension modeling module with it is described The data that GIS three-dimensional land map establishes module combine, and generate very three-dimensional engineering model；

The progress is made a report on module and is made a report in real time to engineering progress data for construction personnel by construction personnel's terminal；

Displaying of the three-dimensional engineering model display module for the very three-dimensional engineering model, and the Cheng Jindu is filled out It reports the data of module to establish module with the very three-dimensional engineering model to be associated, on very three-dimensional engineering model described in real-time update Construction speed information；

The progress control module passes through pipe according to the information of the three-dimensional engineering model display module for administrative staff Formulation or adjustment of the staff terminal to project progress are managed, and the formulation of project progress or adjustment data are acted on into the three-dimensional work Journey model display module；

The construction supplementary information module is used to obtain position and the construction of construction member according to the progress control module Safety equipment and work needed for the project under construction of component obtains the points for attention and construction of work progress by machine learning algorithm Its information is transmitted to the three-dimensional engineering model display module by the information of tool；

The electronic display is respectively installed in the construction site of each engineering component, and for passing through data transmission module The data of three-dimensional engineering model display module described in real-time reception, the electronic display include progress comparison module, construction letter Display module and engineering component information display module are ceased, the progress comparison module is shown by receiving the three-dimensional engineering model Progress described in module makes a report on module and the data of the progress control module are analyzed and processed engineering structure described in real-time update The actual progress of part and the difference of target advance and integrated engineering Percent Complete；The construction information display module is for passing through It receives the data of progress control module described in the three-dimensional engineering model display module and the task and step of construction will be enumerated And pass through the method for simulation animation demonstration construction；The engineering component information display module is used for by receiving the three-dimensional engineering The BIM three-dimension modeling module information in model display module simultaneously shows the component name of the corresponding engineering component, material Material, belonging positions, project amount, the information of cost；

The data server is for storing or sending the three-dimensional engineering model display module, the progress control module And the data of the construction supplementary information module.

Further, the GIS three-dimensional land map establishes module and obtains site contour data by unmanned plane technology.

Further, the very three-dimensional engineering model establishes module by the way that the GIS three-dimensional land map is established module Terrain information is imported in Lumion software and is combined with the threedimensional model of the BIM three-dimension modeling module, is generated very three-dimensional Engineering model.

Further, the construction information display module passes through Naviswork software development construction method simulation animation.

Further, further include the first supervision module, first supervision module include first frequency view acquisition submodule and First identification submodule, the first video acquisition submodule is for shooting the wearing of construction personnel's safety equipment before setting out Information and construction tool information；The first identification submodule is used to extract the feature of the first video acquisition submodule Image, and the characteristic image of the first video acquisition submodule is made comparisons with the information of the construction supplementary information module； When the first identification submodule block message mismatches, the first identification submodule prompt construction personnel claps again It takes the photograph, and sends unmatched information in the three-dimensional engineering model display module by the data server.

It further, further include the second supervision module and construction safety reminding module, second supervision module includes the Two frequency view acquisition submodules and the second identification submodule, the second frequency view acquisition submodule pass through in the engineering component The safety equipment that the camera of installing obtains construction personnel dresses situation video, and the second identification submodule is for extracting The characteristic image of the second video acquisition submodule, and the characteristic image of the second video acquisition submodule is applied with described The information of work supplementary information module is made comparisons；When the second identification submodule number is according to mismatching, second identification The mismatch characteristic image of the second video acquisition submodule and mismatch content are sent the three-dimensional by Comparative sub-module In engineering model display module, the construction safety reminding module is by receiving described in the three-dimensional engineering model display module The information of second supervision module, and show that construction personnel's safety equipment dresses incorrect situation.

Further, the construction safety reminding module can be used for receiving in the three-dimensional engineering model display module The construction supplementary information module information, and show the points for attention of work progress.

Further, 8. a kind of scene progress control display device system, feature described in -7 exist according to claim 1 In: included the following steps using the management method of this system,

S1. BIM threedimensional model is established in the BIM three-dimension modeling module according to Practical Project, by BIM threedimensional model Be divided into multiple engineering components according to Practical Project position, and to the engineering component carry out component name, material, belonging positions, The data input of project amount, cost；

S2. site contour data are obtained by unmanned plane technology, are established in module in the GIS three-dimensional land map, By site contour data by Smart3D software, carries out empty three computations and generate point cloud data, work is made by point cloud data The actual landform figure in journey place；

S3. by terrain information import threedimensional model phase with the BIM three-dimension modeling module in Lumion software In conjunction with, and very three-dimensional engineering model is generated in the three-dimensional engineering model display module；

S4. administrative staff carry out component name, material according to the engineering component in the three-dimensional engineering model display module Material, belonging positions, project amount, the information of cost are simultaneously made a plan project progress according to big data in the progress control module；

S5. construction personnel clicks the construction supplementary information module in the three-dimensional engineering model display module to obtain work The information of tool needed for making the safety equipment dressed needed for the points for attention and work of process and work, and according to requiring to peace Full equipment dress and be prepared to tool, and construction personnel wears safety equipment by the first video acquisition submodule It wears situation and construction tool preparation is shot, the first identification submodule is by the first video acquisition submodule The characteristic image of block is made comparisons with the information of the construction supplementary information module, when the first identification submodule mismatches When, it reminds construction personnel's safety equipment to dress undesirable information and construction tool lacks or the information of mistake and prompt weight New shooting, and comparison result is fed back into the three-dimensional engineering model display module；

S6. the construction information display module is enumerated the task of construction and step by receiving the progress control module Out, and pass through Naviswork software development construction method simulation animation；Construction personnel is by showing mould in the construction information Block obtains constructing for task, step and is constructed by watching construction method simulation animation；

S7. at the construction field (site), the second frequency view acquisition submodule carries out the safety equipment wearing situation of construction personnel Shooting, the second identification submodule believe the characteristic image of the second video acquisition submodule and construction auxiliary The information of breath module is made comparisons；When the second identification submodule number is according to mismatching, the second identification submodule Block will mismatch characteristic image and mismatch content and is sent in the three-dimensional engineering model display module, and pass through the construction Safety prompt function module is shown in electrical screen；

S8. when construction personnel completes a certain work, module is made a report on by the progress, engineering progress data is filled out Report, the progress comparison module by receive progress described in the three-dimensional engineering model display module make a report on module and it is described into Degree management module data be analyzed and processed the actual progress of engineering component described in real-time update and the difference of target advance and Integrated engineering Percent Complete；

S9. after schedule operating time, administrative staff are according to the actual progress feelings of the three-dimensional engineering model display module Condition is adjusted project progress by administrative staff's terminal.

The invention has the advantages that

BIM threedimensional model is divided into multiple engineering components, engineering component and practical work by 1.BIM three-dimension modeling module Journey position relative to and be able to carry out the data input of component name, material, belonging positions, project amount, cost, according to module to work Journey component is decomposed, and each module has the label of oneself, facilitates the statistics of 0# account；GIS three-dimensional land map establishes module Site contour data are obtained by unmanned plane technology, and place graphic data is subjected to sky three by Smart3D software and is encrypted It calculates and generates point cloud data, pass through the actual landform figure in point cloud data fabrication place.Very three-dimensional engineering model establishes module Above-mentioned the two is integrated as administrative staff, visual information is provided, convenient for the acquisition of information.

2. administrative staff in three-dimensional engineering model display module by obtaining the information of practice of construction progress, and according to reality The information of border construction speed is formulated or is adjusted to target advance in progress control module by administrative staff's terminal, progress pipe Reason module is intended to progress msg and is sent in three-dimensional engineering model display module；Construction personnel in electronic console by obtaining It takes and obtains newest target advance information in three-dimensional engineering model display module, and task is executed according to target advance information, Construction personnel makes a report on module in progress and makes a report on to actual progress performance.It realizes that WBS and BIM model mutually maps, makes Obtaining construction personnel and administrative staff can obtain in time the construction information of engineering component, and increase the flexibility of construction, apply Worker person can execute in time task according to target advance information, and administrative staff can be made a report on according to progress module it is practical into Degree performance is adjusted engineering component construction speed.Demonstrating construction method by simulation animation can understand convenient for new person Project construction technology is also promoted conducive to the exchange of technology

3. the safety equipment that the second frequency obtains construction personnel depending on acquisition submodule by the camera installed in engineering component Dress situation video, the second identification submodule is used to extract the characteristic image of the second video acquisition submodule, and by second The characteristic image of video acquisition submodule is made comparisons with the information of construction supplementary information module.When the second identification submodule number When according to mismatching, the photograph of the construction personnel and safety equipment can be dressed incorrect situation and sent out by the second identification submodule It is sent to electronic display, construction personnel in time as requested dresses safety equipment, avoids in work progress Middle appearance is unexpected.

4. the first video acquisition submodule is for shooting the wearing information of construction personnel's safety equipment before setting out and construction work Has information；First identification submodule is used to extract the characteristic image of the first video acquisition submodule, and the first video is adopted The characteristic image for collecting submodule is made comparisons with the information of construction supplementary information module.Construction personnel finishes safety equipment wearing simultaneously It is shot by the first video acquisition submodule, when the first identification submodule block message mismatches, the first identification Submodule prompt construction personnel re-shoots, and construction personnel is avoided to prepare to cause due to incomplete or wearing is lack of standardization because of safety equipment Safety accident is delayed or even occurred to project progress.Construction personnel's information according to provided by construction supplementary information module is to construction Required tool passes sequentially through the first video acquisition submodule and is shot, when the first identification submodule block message mismatches When, the first identification submodule prompts institute's missing tools or carries the information of wrong tool, to avoid construction personnel because of work Has out of trim and appearance the case where cause construction speed to be delayed.

Detailed description of the invention

Fig. 1 is system structure diagram of the invention.

In figure, the very three-dimensional engineering module of 1- establishes module, 11-BIM three-dimension modeling module, and 12-GIS threedimensional model is built Formwork erection block, 2- progress make a report on module, 21- construction personnel's terminal, 3- three-dimensional engineering model display module, 4- progress control module, 41- administrative staff's terminal, 5- construction supplementary information module, the first supervision module of 51-, 511- first regard acquisition submodule frequently, 512- the first identification submodule, the second supervision module of 52-, 521- second regard acquisition submodule frequently, and 522- second identifies ratio Compared with submodule, 6- electronic display, 61- progress comparison module, 62- construction information display module, 63- engineering component information shown Module, 64- construction safety reminding module, 7- data transmission module, 8- data server.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more phases Any and all combinations of the listed item of pass.

A kind of scene progress control display device system, including very three-dimensional engineering model establish module 1, BIM threedimensional model Establish module 11, GIS three-dimensional land map establishes module 12, progress makes a report on module 2, three-dimensional engineering model display module 3, progress pipe Manage module 4, construction supplementary information module 5, electronic display 6 and data server 8.

BIM three-dimension modeling module 11 by BIM threedimensional model of the software to engineering for being established, and by BIM Threedimensional model is divided into multiple engineering components, engineering component and Practical Project position relative to and be able to carry out component name, material, The data input of belonging positions, project amount, cost.In the present embodiment, BIM three-dimension modeling module 11 by Revit or Person's CATIA software establishes the BIM threedimensional model of engineering.

GIS three-dimensional land map establishes module 12 for site contour data by Smart3D software, to be carried out sky three and encrypted It calculates and generates point cloud data, pass through the actual landform figure in point cloud data fabrication place.In the present embodiment, GIS is dimensionally Shape figure establishes module 12 and obtains site contour data by unmanned plane technology.

Very three-dimensional engineering model is established module 1 and is used for the data of BIM three-dimension modeling module 11 and GIS dimensional topography The data that figure establishes module 12 combine, and generate very three-dimensional engineering model.In the present embodiment, very three-dimensional engineering model establishes mould Block 1 by GIS three-dimensional land map is established module 12 terrain information import Lumion software in BIM three-dimension modeling The threedimensional model of module 11 combines, and generates very three-dimensional engineering model.

BIM threedimensional model is divided into multiple engineering components, engineering component and practical work by BIM three-dimension modeling module 11 Journey position relative to and be able to carry out the data input of component name, material, belonging positions, project amount, cost；GIS dimensional topography Figure establishes module 12 and obtains site contour data by unmanned plane technology, and place graphic data is passed through Smart3D software It carries out empty three computations and generates point cloud data, pass through the actual landform figure in point cloud data fabrication place.Very three-dimensional engineering Above-mentioned the two is integrated as administrative staff and provides visual information by model building module 1, convenient for the acquisition of information.

Progress is made a report on module 2 and is made a report in real time to engineering progress data for construction personnel by construction personnel's terminal 21.

Three-dimensional engineering model display module 3 is used for the displaying of very three-dimensional engineering model, and Cheng Jindu is made a report on to the number of module 2 It is associated according to module 1 is established with very three-dimensional engineering model, the construction speed information on the very three-dimensional engineering model of real-time update；

Progress control module 4 passes through administrative staff according to the information of three-dimensional engineering model display module 3 for administrative staff Formulation or adjustment of the terminal 41 to project progress, and the formulation of project progress or adjustment data are acted on into three-dimensional engineering model Display module 3.

Construction personnel makes a report on module 2 in progress by construction personnel's terminal 21 and makes a report on to actual progress performance. Administrative staff by three-dimensional engineering model display module 3 obtain practice of construction progress information, and according to practice of construction into The information of degree is formulated or is adjusted to target advance in progress control module 4 by administrative staff's terminal 41, progress control mould Block 4 is intended to progress msg and is sent in three-dimensional engineering model display module 3.So that administrative staff can obtain engineering in time The construction information of component, so as to made a report on according to progress the actual progress performance of module to engineering component construction speed into Row adjustment.

Supplementary information module 5 of constructing is used to obtain position and the construction member of construction member according to progress control module 4 The letter of safety equipment needed for project under construction obtains the points for attention and construction of work progress by machine learning algorithm and tool Breath, is transmitted to three-dimensional engineering model display module 3 for its information.Construction personnel can provide according to construction supplementary information module 5 Information tool needed for safety equipment and construction is prepared, avoid construction personnel because safety equipment prepare it is incomplete or wear It wears lack of standardization and project progress is caused to delay or safety accident even occur and lead to construction speed because tool is out of trim The case where delay, occurs.

Electronic display 6 is respectively installed in the construction site of each engineering component, and for real by data transmission module 7 When receive the data of three-dimensional engineering model display module 3.In the present embodiment, electronic display 6 uses LED display, Data transmission module 7 is using Category-5 twisted pair as data transmission media.

Electronic display 6 includes that progress comparison module 61, construction information display module 62 and engineering component information show mould Block 63.

Progress comparison module 61 makes a report on module 2 and progress control by receiving progress in three-dimensional engineering model display module 3 The data of module 4 are analyzed and processed the actual progress of real-time update engineering component and the difference of target advance and integrated engineering Percent Complete.Construction working personnel obtain the progress msg of engineering component by progress comparison module 61 in real time, convenient for understanding The manufacturing schedule of same day construction member, and be in advance or normally or lag compared with target advance.Real-time display engineering structure Part manufacturing schedule information, enables site operation personnel to recognize project process in time, reinforces the sense of urgency of employee work.

Construction information display module 62 is used for by receiving progress control module 4 in three-dimensional engineering model display module 3 Data and by enumerate construction task and step and by simulation animation demonstration construction method.Construction personnel passes through construction information Obtained in display module 62 and obtain newest target advance information in three-dimensional engineering model display module, and according to plan into It spends information and executes task, construction personnel makes a report on module 2 in progress and makes a report on to actual progress performance, and administrative staff are logical The information that practice of construction progress is obtained in three-dimensional engineering model display module 3 is crossed, and logical according to the information of practice of construction progress It crosses administrative staff's terminal 41 target advance is formulated or adjusted in progress control module 4, progress control module 4 is intended to Progress msg is sent in three-dimensional engineering model display module 3.Task can be executed in time by realizing construction personnel, and administrator Member can be adjusted engineering component construction speed, avoid information delay, increase the completion efficiency of engineering.

In the present embodiment, construction information display module 62 passes through Naviswork software development construction method simulation animation, The method that construction personnel can be made quickly to grasp construction, provides working efficiency.

Engineering component information display module 63 is used for by receiving the BIM three-dimensional mould in three-dimensional engineering model display module 3 Type establishes 11 information of module and shows component name, material, belonging positions, project amount, the information of cost of corresponding engineering component.It is logical Engineering component information display module 63 is crossed, construction personnel can at the construction field (site) understand engineering component.

It further include the first supervision module 51, the first supervision module 51 includes that the first frequency view acquisition submodule 511 and first are known Other Comparative sub-module 512, the first video acquisition submodule 511 is for shooting the wearing information of construction personnel's safety equipment before setting out And construction tool information；First identification submodule 512 is used to extract the characteristic image of the first video acquisition submodule 511, And the characteristic image of the first video acquisition submodule 511 is made comparisons with the information of construction supplementary information module 5；When the first identification 512 information of Comparative sub-module mismatch when, the first identification submodule 512 prompt construction personnel re-shoot, and will not The information matched is sent in three-dimensional engineering model display module 3 by data server 8.

In the present embodiment, construction personnel by safety equipment wearing finish and by the first video acquisition submodule 511 into Row shooting, when 512 information of the first identification submodule mismatches, the first identification submodule 512 prompts construction personnel Re-shoot, avoid construction personnel because safety equipment prepare it is incomplete or wearing it is lack of standardization due to cause project progress delay or even There is safety accident.Construction personnel according to construction supplementary information module 5 provided by information to construction required for tool successively It is shot by the first video acquisition submodule 511, when 512 information of the first identification submodule mismatches, first knows Other Comparative sub-module 512 prompts institute's missing tools or carries the information of wrong tool, so that construction personnel be avoided to prepare because of tool Insufficient and appearance the case where cause construction speed to be delayed.

It further include the second supervision module 52 and construction safety reminding module 64.Second supervision module 52 includes the second frequency depending on adopting Collect submodule 521 and the second identification submodule 522, the second frequency view acquires submodule 521 by installing in engineering component The safety equipment that camera obtains construction personnel dresses situation video, and the second identification submodule 522 is for extracting the second view Frequency acquire submodule 521 characteristic image, and by the characteristic image of the second video acquisition submodule 521 and construction auxiliary information mould The information of block 5 is made comparisons.

When 522 data of the second identification submodule mismatch, the second identification submodule 522 adopts the second video Collect the mismatch characteristic image of submodule 521 and mismatch content and is sent in three-dimensional engineering model display module 3, construction safety Reminding module 64 shows construction personnel by receiving the information of the second supervision module 52 in three-dimensional engineering model display module 3 Safety equipment dresses incorrect situation.

Included the following steps using the management method of this system,

S1. BIM threedimensional model is established in BIM three-dimension modeling module 11 according to Practical Project, by BIM threedimensional model root Factually engineering position in border is divided into multiple engineering components, and to engineering component carry out component name, material, belonging positions, project amount, The data input of cost；

S2. site contour data are obtained by unmanned plane technology, is established in module 12 in GIS three-dimensional land map, it will Site contour data carry out empty three computations and generate point cloud data, pass through point cloud data fabrication by Smart3D software The actual landform figure in place；

S3. by terrain information import in Lumion software and mutually tied with the threedimensional model of BIM three-dimension modeling module 11 It closes, and generates very three-dimensional engineering model in three-dimensional engineering model display module 4；

S4. administrative staff carry out component name, material, affiliated according to the engineering component in three-dimensional engineering model display module 4 Position, project amount, the information of cost are simultaneously made a plan project progress according to big data in progress control module 4；

S5. construction personnel clicks construction supplementary information module 5 in three-dimensional engineering model display module 4 to obtain the course of work Points for attention and work needed for tool needed for the safety equipment dressed and work information, and according to requiring to safety equipment Dress and be prepared tool, construction personnel dresses situation to safety equipment by the first video acquisition submodule 511 It is shot with construction tool preparation, the first identification submodule 512 is by the feature of the first video acquisition submodule 511 Image is made comparisons with the information of construction supplementary information module 5, when the first identification submodule 512 mismatches, reminds construction Personnel safety equipment dresses undesirable information and construction tool lacks or the information of mistake and prompt are re-shoot, and Comparison result is fed back into three-dimensional engineering model display module 4；

S6. construction information display module 62 by receive progress control module 4 by the task of construction and step be set out come, And pass through Naviswork software development construction method simulation animation；Construction personnel in construction information display module 62 by obtaining It the task of construction, step and is constructed by watching construction method simulation animation；

S7. at the construction field (site), the second frequency is clapped depending on safety equipment wearing situation of the acquisition submodule 521 to construction personnel Take the photograph, the second identification submodule 522 by the characteristic image of the second video acquisition submodule 521 and construction supplementary information module 5 Information make comparisons；When 522 data of the second identification submodule mismatch when, the second identification submodule 522 will not It is sent in three-dimensional engineering model display module 3 with characteristic image and mismatch content, and passes through construction safety reminding module 64 It is shown in electrical screen；

S8. when construction personnel completes a certain work, module 2 is made a report on by progress, engineering progress data is made a report on, Progress comparison module 61 makes a report on the number of module 2 and progress control module 4 by receiving progress in three-dimensional engineering model display module 3 According to the difference and integrated engineering Percent Complete of the actual progress and target advance for being analyzed and processed real-time update engineering component；

S9. after schedule operating time, administrative staff are logical according to the actual progress situation of three-dimensional engineering model display module 3 Administrative staff's terminal 41 is crossed to be adjusted project progress.

In the present embodiment, when 522 data of the second identification submodule mismatch, the second identification submodule 522 The photograph of the construction personnel and safety equipment can be dressed incorrect situation and be sent to electronic display 6, so that constructor Member can in time as requested dress safety equipment, avoid occurring accident in the construction process.

The supervision of preparation before being worked by the first supervision module 51 and the second supervision module 52 construction personnel With the supervision of construction site situation, it ensure that and ensure going on smoothly for construction, and ensure that the safety of construction personnel.

When constructing to somewhere engineering component, administrative staff are by administrative staff's terminal 41 to project progress system It is fixed.Construction personnel is by being prepared safety equipment and construction tool according to the information of construction supplementary information module 5.

At the construction field (site), construction personnel is by obtaining the task and step of construction in construction information display module 62, and holds Row construction task；When construction personnel completes a certain work, module 2 is made a report on by progress, engineering progress data is made a report on. Meanwhile the actual progress of 61 real-time update engineering component of progress comparison module and the difference and integrated engineering of target advance complete hundred Divide ratio.After schedule operating time, administrative staff pass through management according to the actual progress situation of three-dimensional engineering model display module 3 Staff terminal 41 is adjusted project progress.Construction personnel obtains newest apply again by construction information display module 62 The task and step of work complete the process that construction personnel mutually hands over administrative staff's information.

Claims (8)

1. a kind of scene progress control display device system, which is characterized in that including very three-dimensional engineering model establish module (1), BIM three-dimension modeling module (11), GIS three-dimensional land map establish module (12), progress makes a report on module (2), three-dimensional stage die Type display module (3), progress control module (4), construction supplementary information module (5), electronic display (6) and data server (8),

The BIM three-dimension modeling module (11) is used to establish by BIM threedimensional model of the software to engineering, and will BIM threedimensional model is divided into multiple engineering components, the engineering component and Practical Project position relative to and be able to carry out component Name, material, belonging positions, project amount, cost data input；

The GIS three-dimensional land map establishes module (12) for site contour data by Smart3D software, to be carried out sky three and added Close calculating generates point cloud data, passes through the actual landform figure in point cloud data fabrication place；

The very three-dimensional engineering model is established module (1) and is used for the data of the BIM three-dimension modeling module (11) and institute It states GIS three-dimensional land map and establishes the data combination of module (12), and generate very three-dimensional engineering model；

The progress is made a report on module (2) and is filled out in real time to engineering progress data for construction personnel by construction personnel's terminal (21) Report；

Displaying of the three-dimensional engineering model display module (3) for the very three-dimensional engineering model, and the Cheng Jindu is filled out It reports the data of module (2) to establish module (1) with the very three-dimensional engineering model to be associated, very three-dimensional engineering described in real-time update Construction speed information on model；

The progress control module (4) passes through for administrative staff according to the information of the three-dimensional engineering model display module (3) Formulation or adjustment of the administrative staff's terminal (41) to project progress, and the formulation of project progress or adjustment data acted on described Three-dimensional engineering model display module (3)；

Construction supplementary information module (5) is used to obtain the position of construction member according to the progress control module (4) and apply The project under construction of work component by machine learning algorithm obtain work progress points for attention and construction needed for safety equipment and Its information is transmitted to the three-dimensional engineering model display module (3) by the information of tool；

The electronic display (6) is respectively installed in the construction site of each engineering component, and for passing through data transmission module (7) data of three-dimensional engineering model display module (3) described in real-time reception, the electronic display (6) includes that progress compares mould Block (61), construction information display module (62) and engineering component information display module (63), the progress comparison module (61) are logical It crosses the progress described in the three-dimensional engineering model display module (3) that receives and makes a report on module (2) and the progress control module (4) Data are analyzed and processed the actual progress of engineering component described in real-time update and the difference of target advance and integrated engineering is completed Percentage；The construction information display module (62) is used for by receiving described in the three-dimensional engineering model display module (3) The data of progress control module (4) and by enumerate construction task and step and by simulation animation demonstration construction method；Institute Engineering component information display module (63) are stated for by receiving the BIM in three-dimensional engineering model display module (3) Three-dimension modeling module (11) information and show the component name of the corresponding engineering component, material, belonging positions, project amount, The information of cost；

The data server (8) is for storing or sending the three-dimensional engineering model display module (3), the progress control mould The data of block (4) and construction supplementary information module (5).

2. a kind of live progress control display device system according to claim 1, it is characterised in that: the GIS is three-dimensional Topographic map establishes module (12) and obtains site contour data by unmanned plane technology.

3. a kind of live progress control display device system according to claim 1, it is characterised in that: the very three-dimensional work Journey model building module (1) imports Lumion software by the way that the GIS three-dimensional land map to be established to the terrain information of module (12) In combined with the threedimensional model of the BIM three-dimension modeling module (11), generate very three-dimensional engineering model.

4. a kind of live progress control display device system according to claim 1, it is characterised in that: the construction information Display module (62) passes through Naviswork software development construction method simulation animation.

5. a kind of live progress control display device system according to claim 1, it is characterised in that: further include the first prison It superintends and directs module (51), first supervision module (51) includes the first frequency view acquisition submodule (511) and the first identification submodule Block (512), the first video acquisition submodule (511) for shoot construction personnel's safety equipment before setting out dress information and Construction tool information；The first identification submodule (512) is for extracting the first video acquisition submodule (511) Characteristic image, and by the characteristic image of the first video acquisition submodule (511) and construction supplementary information module (5) Information is made comparisons；When the first identification submodule (512) information mismatches, the first identification submodule (512) prompt construction personnel re-shoots, and sends the three-dimensional by the data server (8) for unmatched information In engineering model display module (3).

6. a kind of live progress control display device system according to claim 1, it is characterised in that: further include the second prison Module (52) and construction safety reminding module (64) are superintended and directed, second supervision module (52) includes the second frequency view acquisition submodule (521) and the second identification submodule (522), second frequency view acquisition submodule (521) pass through in the engineering component The safety equipment that the camera of installing obtains construction personnel dresses situation video, and the second identification submodule (522) is used In the characteristic image for extracting the second video acquisition submodule (521), and by the second video acquisition submodule (521) Characteristic image is made comparisons with the information of construction supplementary information module (5)；When the second identification submodule (522) number When according to mismatching, the second identification submodule (522) is special by the mismatch of the second video acquisition submodule (521) Sign image and mismatch content are sent in the three-dimensional engineering model display module (3), the construction safety reminding module (64) it by receiving the information of the second supervision module (52) described in the three-dimensional engineering model display module (3), and shows and applies Worker person's safety equipment dresses incorrect situation.

7. according to claim 1 with a kind of scene progress control display device system described in 6, it is characterised in that: the construction Safety prompt function module (64) can be used for receiving the construction auxiliary information in the three-dimensional engineering model display module (3) The information of module (5), and show the points for attention of work progress.

8. a kind of scene progress control display device system described in -7 according to claim 1, it is characterised in that: use this system Management method include the following steps,

S1. BIM threedimensional model is established in the BIM three-dimension modeling module (11) according to Practical Project, by BIM threedimensional model Be divided into multiple engineering components according to Practical Project position, and to the engineering component carry out component name, material, belonging positions, The data input of project amount, cost；

S2. site contour data are obtained by unmanned plane technology, are established in module (12) in the GIS three-dimensional land map, By site contour data by Smart3D software, carries out empty three computations and generate point cloud data, work is made by point cloud data The actual landform figure in journey place；

S3. by terrain information import threedimensional model phase with the BIM three-dimension modeling module (11) in Lumion software In conjunction with, and very three-dimensional engineering model is generated in the three-dimensional engineering model display module (4)；

S4. administrative staff carry out component name, material according to the engineering component in the three-dimensional engineering model display module (4) Material, belonging positions, project amount, the information of cost and according to big data the progress control module (4) make a plan engineering into Degree；

S5. construction personnel clicks the construction supplementary information module (5) in the three-dimensional engineering model display module (4) to obtain The information of tool needed for the safety equipment dressed needed for the points for attention of the course of work and work and work, and according to requiring pair Safety equipment dress and be prepared to tool, and construction personnel is by the first video acquisition submodule (511) to peace Full equipment wearing situation and construction tool preparation are shot, and the first identification submodule (512) is by described the The characteristic image of one video acquisition submodule (511) is made comparisons with the information of construction supplementary information module (5), when described the When one identification submodule (512) mismatches, construction personnel's safety equipment is reminded to dress undesirable information and construction Tool lacks or the information of mistake and prompt are re-shoot, and comparison result is fed back the three-dimensional engineering model display module (4)；

S6. the construction information display module (62) is by receiving the progress control module (4) for the task and step of construction It is set out and, and pass through Naviswork software development construction method simulation animation；Construction personnel passes through aobvious in the construction information Show that module (62) obtain constructing for task, step and construct by watching construction method simulation animation；

S7. at the construction field (site), second frequency view acquisition submodule (521) carries out the safety equipment wearing situation of construction personnel Shooting, the second identification submodule (522) by the characteristic image of the second video acquisition submodule (521) with it is described The information of construction supplementary information module (5) is made comparisons；When the second identification submodule (522) data mismatch, institute It states the second identification submodule (522) characteristic image will be mismatched and mismatch content and be sent to the three-dimensional engineering model exhibition Show in module (3), and is shown in electrical screen by the construction safety reminding module (64)；

S8. when construction personnel completes a certain work, module (2) is made a report on by the progress, engineering progress data is filled out Report, the progress comparison module (61) make a report on module by receiving progress described in the three-dimensional engineering model display module (3) (2) and the data of the progress control module (4) are analyzed and processed the actual progress and meter of engineering component described in real-time update The difference and integrated engineering Percent Complete for the progress of drawing；

S9. after schedule operating time, administrative staff are according to the actual progress situation of the three-dimensional engineering model display module (3) Project progress is adjusted by administrative staff's terminal (41).