CN111260325A - Bridge construction progress management system based on BIM - Google Patents

Abstract

The invention discloses a bridge construction progress management system based on BIM, which comprises a server, an image acquisition device and a project monitoring platform, wherein the image acquisition device and the project monitoring platform are respectively connected with the server; the image acquisition device is arranged on a construction site and used for acquiring image information of the bridge building in real time; the server comprises an image identification module and is used for identifying the actual construction progress of the bridge building according to the image information; the database module stores a bridge building model established based on BIM; the data processing module is used for setting the planned construction progress of the bridge building according to the bridge building model; the analysis module updates the actual construction progress to the planned construction progress so as to show the actual construction progress of the bridge building in the bridge building model; and the project monitoring platform is used for displaying actual construction progress information. The invention can rapidly, accurately and visually manage the engineering project.

Description

Bridge construction progress management system based on BIM

Technical Field

The invention relates to the technical field of constructional engineering, in particular to a bridge construction progress management system based on BIM.

Background

In the implementation process of a construction project of a building project, project progress management of a bridge building and other projects and progress data acquisition of a platform usually record project progress data information in a form of manually recording or inputting carriers such as computers by engineering technicians, and due to the problems of hysteresis, high possibility of errors and the like existing when the work technicians record data, the progress management of the construction project cannot be mastered in time. After the engineering technicians record the data, one processing method is to directly display the text information of the data to the engineering managers, and the engineering managers cannot visually know the progress of the construction project. Another approach is to draw a progress drawing on the data to the engineer, thereby causing severe hysteresis in the progress data. Therefore, it is an urgent technical problem in the art to rapidly, accurately and visually manage engineering projects.

Disclosure of Invention

The invention aims to overcome the defects and provide a bridge construction progress management system based on BIM (building information modeling) to rapidly, accurately and visually manage engineering projects.

In order to solve the technical problems, the technical scheme of the invention is as follows: a bridge construction progress management system based on BIM comprises a server, an image acquisition device and a project monitoring platform, wherein the image acquisition device and the project monitoring platform are respectively connected with the server; the image acquisition device is arranged on a construction site and used for acquiring image information of the bridge building in real time; the server comprises an image recognition module, and the actual construction progress of the bridge building is recognized according to the image information of the bridge building collected by the image collection device; the database module stores a bridge building model established based on BIM; the data processing module is used for setting the planned construction progress of the bridge building according to the bridge building model; the analysis module updates the actual construction progress of the bridge building identified by the image identification module into the planned construction progress of the data processing module so as to show the actual construction progress of the bridge building in the bridge building model; and the project monitoring platform is used for displaying the actual construction progress information of the bridge building obtained by the analysis module.

Further, according to the bridge construction progress management system based on the BIM, the image acquisition devices are a plurality of cameras distributed on a construction site.

Further, in the bridge construction progress management system based on the BIM, the camera is a CCD device.

Further, according to the bridge construction progress management system based on the BIM, the camera is connected with the server through a wired network or a wireless network.

Further, in the bridge construction progress management system based on the BIM, the server is a computer.

Further, according to the bridge construction progress management system based on the BIM, the project monitoring platform is a smart phone, a tablet personal computer or a desktop computer.

Further, in the bridge construction progress management system based on the BIM provided by the invention, the analysis module is further used for analyzing the deviation between the actual construction progress and the planned construction progress; the project monitoring platform is also used for displaying deviation information of the actual construction progress and the planned construction progress.

Furthermore, according to the BIM-based bridge construction progress management system provided by the invention, the image acquisition device is also used for acquiring information of personnel, equipment and materials for bridge construction in real time and storing the information into the database module; analyzing the deviation reasons by the analysis module according to personnel, equipment, materials and weather information of bridge building construction in the deviation time period to generate a deviation analysis report and give a deviation countermeasure; the project monitoring platform is also used for displaying the deviation analysis report and the deviation corresponding measures.

Compared with the prior art, the bridge construction progress management system based on the BIM comprises an image acquisition device, a server and a project monitoring platform, wherein the planned construction progress of a bridge building is set through a bridge building model which is stored by the server and is established based on the BIM, the actual construction progress information of the bridge building is rapidly, accurately and automatically recorded in real time through the image acquisition device and the server, and the actual construction progress is updated to the bridge building model corresponding to the planned construction progress, so that the actual construction progress of the bridge building is visually displayed in the bridge building model established by the BIM. The defects that data time lag, error are easy to occur and visual management cannot be carried out on the engineering project due to the fact that engineering technicians manually record or input data in the traditional engineering project management are overcome. Therefore, the invention has the effect of rapid, accurate and visual engineering management.

Drawings

Fig. 1 is a schematic diagram of a bridge construction progress management system based on BIM according to an embodiment of the present invention.

Shown in the figure: 110. the system comprises an image acquisition device, 120, a server, 121, an image recognition module, 122, a database module, 123, a data processing module, 124, an analysis module, 130 and a project monitoring platform.

Detailed Description

The invention is described in detail below with reference to the attached drawing figures:

referring to fig. 1, an embodiment of the present invention provides a bridge construction progress management system based on a Building Information Model (BIM), which includes a server 120, an image capture device 110 and a project monitoring platform 130, respectively connected to the server 120.

The image acquisition device 110 is arranged on a construction site and used for acquiring image information of the bridge building in real time. The image acquisition device 110 is a plurality of cameras distributed on a construction site. The analysis source is obtained by receiving the image information collected by the camera, and the construction progress of the bridge building is easy to distinguish because the image information is a picture of the same position. Namely, erecting cameras at multiple angles on a construction site before construction begins, and recording images at that time; after each construction component is installed, the camera recognizes that the component is fixed at the preset position, the image is recorded again, and the time is recorded at the moment of installation, and the time forms the actual installation time of the component, namely the actual construction progress. The camera may be a CCD device. The camera has a very important image acquisition function, is erected to a position where a construction progress needs to be monitored on a construction site, and can be connected to the server 120 in a wired network connection or wireless network connection mode.

Wherein the server 120 may be a computer, including:

and the image identification module 121 identifies the actual construction progress of the bridge building according to the image information of the bridge building acquired by the image acquisition device 110.

And the database module 122 stores the bridge building model established based on the BIM. The bridge building model is a three-dimensional model.

And the data processing module 123 sets the planned construction progress of the bridge building according to the bridge building model.

And the analysis module 124 updates the actual construction progress of the bridge building identified by the image identification module 121 into the planned construction progress of the data processing module 123 so as to show the actual construction progress of the bridge building in the bridge building model. Namely, the image recognition module 121 is matched and associated with the information of the data processing module 123, so as to achieve the purpose of updating the display.

The project monitoring platform 130 may be a smart phone, a tablet computer or a desktop computer, and is configured to display the actual construction progress information of the bridge building obtained by the analysis module 124.

The BIM-based bridge construction progress management system comprises an image acquisition device 110, a server 120 and a project monitoring platform 130, wherein a bridge construction model is established on the basis of the BIM and stored in the server 120 to set the planned construction progress of a bridge construction, the image acquisition device 110 and the server 120 are used for quickly, accurately and automatically recording the actual construction progress information of the bridge construction in real time, and the actual construction progress is updated to the bridge construction model corresponding to the planned construction progress so as to visually display the actual construction progress of the bridge construction in the bridge construction model established by the BIM. The problems of complexity, deviation and time lag in manual recording and progress recording are solved, and the method has the effect of rapid, accurate and visual project management.

In order to show the progress of the construction project, the analysis module 124 of the bridge construction progress management system of BIM provided by the present invention is further configured to analyze a deviation between the actual construction progress and the planned construction progress. The deviation information is processed by comparing the actual construction progress with the planned construction progress to find out the difference. The project monitoring platform 130 can display deviation information of the actual construction progress from the planned construction progress. I.e., project monitoring platform 130 is in matching association with server 120.

In order to find out the causes of deviation and the corresponding measures, in the bridge construction progress management system based on the BIM provided by the invention, the image acquisition device 110 also acquires information of personnel, equipment and materials of bridge construction in real time and stores the information into the database module 122; in the deviation time period, the analysis module 124 analyzes the deviation reasons according to the personnel, equipment, materials and weather information of the bridge building construction, generates a deviation analysis report and gives a deviation countermeasure; the project monitoring platform 130 is also used to show the deviation analysis reports and deviation correspondences.

In conclusion, the method and the system can display the actual construction progress information of the bridge building, the deviation information of the actual construction progress and the planned construction progress of the bridge building, the deviation analysis report and the deviation response measure.

The invention is not limited to bridge buildings, but also buildings such as houses and the like.

The present invention is not limited to the above-described embodiments, and various changes and modifications within the spirit and scope of the present invention are within the scope of the present invention.

Claims (8)

1. A bridge construction progress management system based on BIM is characterized by comprising a server, an image acquisition device and a project monitoring platform, wherein the image acquisition device and the project monitoring platform are respectively connected with the server;

the image acquisition device is arranged on a construction site and used for acquiring image information of the bridge building in real time;

the server comprises

The image identification module is used for identifying the actual construction progress of the bridge building according to the image information of the bridge building collected by the image collection device;

the database module stores a bridge building model established based on BIM;

the data processing module is used for setting the planned construction progress of the bridge building according to the bridge building model;

the analysis module updates the actual construction progress identified by the image identification module into the planned construction progress of the data processing module so as to show the actual construction progress of the bridge building in the bridge building model;

and the project monitoring platform is used for displaying the actual construction progress information of the bridge building obtained by the analysis module.

2. The BIM-based bridge construction progress management system of claim 1, wherein the image capturing devices are a plurality of cameras distributed at a construction site.

3. The BIM-based bridge construction progress management system of claim 2, wherein the camera is a CCD device.

4. The BIM-based bridge construction progress management system of claim 2, wherein the camera is connected with a server through a wired network or a wireless network.

5. The BIM-based bridge construction progress management system of claim 1, wherein the server is a computer.

6. The BIM-based bridge construction progress management system of claim 1, wherein the project monitoring platform is a smart phone, a tablet computer, or a desktop computer.

7. The BIM-based bridge construction progress management system of claim 1, wherein the analysis module is further configured to analyze a deviation of the actual construction progress from the planned construction progress; the project monitoring platform is also used for displaying deviation information of the actual construction progress and the planned construction progress.

8. The BIM-based bridge construction progress management system of claim 7, wherein the image acquisition device further acquires information of personnel, equipment and materials of bridge construction in real time and stores the information into the database module; analyzing the deviation reasons by the analysis module according to personnel, equipment, materials and weather information of bridge building construction in the deviation time period to generate a deviation analysis report and give a deviation countermeasure; the project monitoring platform is also used for displaying the deviation analysis report and the deviation corresponding measures.

Images