CN116011739A - Highway bridge precast beam information management system based on BIM - Google Patents

Abstract

The invention discloses a highway bridge precast beam information management system based on BIM, which comprises: the system comprises an information acquisition module, an intelligent planning module, an information management and control module and a system setting module; the information acquisition module is connected with the intelligent planning module and is used for acquiring project information in the highway bridge; the intelligent planning module is connected with the information management and control module and is used for calculating and obtaining a precast beam production plan according to project information in the highway bridge; the information management and control module is connected with the system setting module and is used for tracking and monitoring the production plan of the precast beam; the system setting module is used for setting and managing the authority of the information management system of the highway bridge precast beam, and the production efficiency and the installation efficiency of the precast beam are effectively improved through the whole process management of the highway bridge precast beam. Meanwhile, the information of a plurality of beam fields is fully considered, the whole process of the precast beam components in each beam field is managed, the production plan is dynamically adjusted according to the on-site progress, and the construction progress is guaranteed.

Description

Highway bridge precast beam information management system based on BIM

Technical Field

The invention belongs to the field of information management, and particularly relates to a highway bridge precast beam information management system based on BIM.

Background

Along with the rapid development of highway and urban traffic infrastructure construction industry in China and the requirements of China on intelligent construction and building industrialization collaborative development, the projects of assembled bridges are increasing. The assembled highway bridge project has the characteristics of long line, a large number of components, a large number of construction period constraint factors and the like, and the condition of temporarily adjusting the construction progress plan can often occur.

At present, technicians of an assembled highway bridge project usually rely on manual work to schedule the precast beams, and the method is easy to ignore the influences of factors such as the production capacity, the storage capacity and the production period of a precast beam field, so that the production schedule of the precast beams is not matched with the construction schedule, and meanwhile, the frequent adjustment of the project construction schedule is difficult to meet.

In addition, on-site management personnel lack unified effective tracking management to precast beam's production, transportation and installation process, rely on paper document to record generally, trace back difficultly when finding the problem, lead to temporarily increasing the condition such as beam making pedestal, deposit beam pedestal and template frequently, make the cost increase sharply.

Disclosure of Invention

The invention aims to provide a BIM-based highway bridge precast beam information management system so as to solve the problems in the prior art.

In order to achieve the above object, the present invention provides a highway bridge precast beam information management system based on BIM, comprising:

the system comprises an information acquisition module, an intelligent planning module, an information management and control module and a system setting module;

the information acquisition module is connected with the intelligent planning module and is used for acquiring project information in the highway bridge;

the intelligent planning module is connected with the information management and control module and is used for calculating and obtaining a precast beam production plan according to project information in the highway bridge;

the information management and control module is connected with the system setting module and is used for tracking and monitoring the precast beam production plan;

the system setting module is used for setting and managing authority of the highway bridge precast beam information management system.

Preferably, the information acquisition module includes:

a component information collection unit for collecting prefabrication Liang Bianhao, bridge name, beam type, beam length, and beam position information;

the beam field information collection unit is used for collecting basic information and flow section information of the beam field;

and the task information collection unit is used for collecting the task division project information of the precast beam of the project.

Preferably, the basic information of the beam field comprises beam field names, descriptions, responsible persons and members; the running water section information comprises a beam field name, a running water section name, a start installation date, an end installation date, a daily installation number and a precast beam number range;

the beam manufacturing task division project information comprises a prefabrication Liang Bianhao, a bridge name, a beam type, a beam length, a beam position, a beam field and a flow section.

Preferably, the intelligent planning module comprises:

the query unit is used for querying the beam field precast beam production data;

the early warning unit is used for comparing the actual working progress with the beam field production plan and carrying out early warning according to the comparison result;

and the adjusting unit is used for dynamically adjusting the beam field production plan according to the early warning result and displaying the current state in color.

Preferably, the beam farm precast beam production data includes precast Liang Bianhao, bridge name, beam type, beam length, beam position, flow section, planned beam start date, planned beam completion date, planned installation date, current status.

Preferably, the information management module includes:

the model building unit is used for building a BIM three-dimensional model;

and the display unit is used for displaying the installed precast beam and the uninstalled precast beam.

Preferably, the BIM display unit includes:

the BIM modeling unit is used for building a BIM three-dimensional model according to the beam field and the flow section information;

the cloud design unit is used for carrying out self-defined design and adjustment on the BIM three-dimensional model through a cloud;

and the prediction unit is used for dynamically simulating the BIM three-dimensional model through a neural network based on a time axis and an early warning result and predicting the construction progress of the project.

Preferably, the system setting module includes:

the system authority unit is used for acquiring the operation authority of the BIM three-dimensional model based on different levels of personnel;

the system management unit is used for managing engineering information, system personnel, interface topics and operation rights.

The invention has the technical effects that:

the invention effectively improves the production efficiency and the installation efficiency of the precast beam by the whole process management of the precast beam of the highway bridge. The system fully considers the information of a plurality of beam fields, and the generated production plan is more reasonable. The whole process of tracking management is carried out on the precast beam components in each beam field, and the production plan is dynamically adjusted according to the field progress, so that the construction progress is guaranteed. The visual browsing and the query progress plan condition based on the BIM model enable the construction progress condition of the whole project to be clear at a glance, and meanwhile, the future construction progress is predicted according to the current construction progress, and the total construction time can be controlled.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application, illustrate and explain the application and are not to be construed as limiting the application. In the drawings:

fig. 1 is a flowchart of a BIM-based highway bridge precast beam information management system according to an embodiment of the present invention.

Detailed Description

It should be noted that, in the case of no conflict, the embodiments and features in the embodiments may be combined with each other. The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

Example 1

As shown in fig. 1, in this embodiment, a highway bridge precast beam information management system based on BIM is provided, which includes: the system comprises an information acquisition module, an intelligent planning module, an information management and control module and a system setting module.

In this embodiment, the information acquisition module, the intelligent planning module, the information management and control module, and the system setting module are sequentially connected, where the information acquisition module includes a component information collection unit, a beam field information collection unit, and a task information collection unit, and the component information collection unit is used for importing, editing, and querying a prefabrication Liang Xinxi of the project; the precast beam information comprises precast Liang Bianhao, bridge names, beam types, beam lengths and beam positions, and the beam field information collecting unit is used for setting basic information and flow section information of a plurality of beam fields; the basic information comprises beam field names, descriptions, responsible persons and members; wherein, the information of the precast beam is scanned

The running water section information comprises a beam field name, a running water section name, a start installation date, an end installation date, a daily installation number and a precast beam number range; the task information collection unit is used for inquiring the task division project information of the precast beam task of the project; the precast beam task division project information comprises precast Liang Bianhao, bridge names, beam types, beam lengths, beam positions, beam fields and flow sections.

Further optimizing scheme, the intelligent planning module in the embodiment comprises a display unit, an early warning unit and a management unit, wherein the display unit is used for setting the pedestal type, the template parameter configuration and the template configuration of the beam field; the pedestal type includes a name and a length; the template parameter configuration comprises template names, prefabrication days, template occupation days and a memory Liang Tianshu; the template configuration includes a beam type, a beam length, and a corresponding template name. The early warning unit is used for carrying out comparison analysis according to the actual progress of engineering and the production plan of each beam field, obtaining the prefabricated beams which are possibly out of date, and sending an alarm to staff.

Further, in this embodiment, a worker may browse the engineering BIM three-dimensional model, may perform classification selection according to the beam field and the running water section, may query basic information corresponding to the precast beam, and plan, production, transportation and installation information, and an installation unit is used for displaying the installed precast beam and the uninstalled precast beam, in this embodiment, color display is required according to the installation start time and the installation end time of the precast beam, the installed precast beam is displayed in a semi-transparent manner, and the uninstalled precast beam may select a component and display information thereof separately.

Further, the BIM prediction unit includes: the BIM modeling unit is used for building a BIM three-dimensional model according to the beam field and water flow section information and the construction information; and building a BIM technical model of the project by using ArchiCAD, magiCAD, tekla, revit and other software according to the information of the precast beam of the highway bridge and the construction process, and simultaneously checking whether construction information is wrong in the modeling process so as to determine the accuracy of construction process data.

The cloud design unit is used for carrying out self-defined design on the BIM three-dimensional model through the cloud; in this embodiment, after building the BIM three-dimensional model, the model is uploaded to the cloud server, and a worker can perform custom design on the installation of the bridge prefabricated member through the BIM three-dimensional model of the cloud.

The prediction unit is used for dynamically simulating the BIM three-dimensional model through the neural network based on the time axis and the early warning result, predicting the construction progress of the project, the prediction unit can train the three-dimensional model through the acquired information based on the neural network and perform the dynamic simulation, and the construction progress of the project can be predicted, so that the worker can control the construction progress better.

The system setting module comprises a system authority unit and a system management unit, and a system encryption unit is used for determining the viewing authority of the BIM three-dimensional model; the system management unit is used for managing engineering information, system personnel, interface topics and operation rights.

The invention has the technical effects that: the invention effectively improves the production efficiency and the installation efficiency of the precast beam by the whole process management of the precast beam of the highway bridge. The system fully considers the information of a plurality of beam fields, and the generated production plan is more reasonable. The whole process of tracking management is carried out on the precast beam components in each beam field, and the production plan is dynamically adjusted according to the field progress, so that the construction progress is guaranteed. The visual browsing and the query progress plan condition based on the BIM model enable the construction progress condition of the whole project to be clear at a glance, and meanwhile, the future construction progress is predicted according to the current construction progress, and the total construction time can be controlled.

The foregoing is merely a preferred embodiment of the present application, but the scope of the present application is not limited thereto, and any changes or substitutions easily contemplated by those skilled in the art within the technical scope of the present application should be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (8)

1. A BIm-based highway bridge precast beam information management system, comprising:

the system comprises an information acquisition module, an intelligent planning module, an information management and control module and a system setting module;

the information acquisition module is connected with the intelligent planning module and is used for acquiring project information in the highway bridge;

the intelligent planning module is connected with the information management and control module and is used for calculating and obtaining a precast beam production plan according to project information in the highway bridge;

the information management and control module is connected with the system setting module and is used for tracking and monitoring the precast beam production plan;

the system setting module is used for setting and managing authority of the highway bridge precast beam information management system.

2. The BIM-based highway bridge precast beam information management system of claim 1, wherein the information acquisition module includes:

a component information collection unit for collecting prefabrication Liang Bianhao, bridge name, beam type, beam length, and beam position information;

the beam field information collection unit is used for collecting basic information and flow section information of the beam field;

and the task information collection unit is used for collecting the task division project information of the precast beam of the project.

3. The BIM-based highway bridge precast beam information management system according to claim 2, wherein,

the basic information of the beam field comprises beam field names, descriptions, responsible persons and members; the running water section information comprises a beam field name, a running water section name, a start installation date, an end installation date, a daily installation number and a precast beam number range;

the beam manufacturing task division project information comprises a prefabrication Liang Bianhao, a bridge name, a beam type, a beam length, a beam position, a beam field and a flow section.

4. The BIM-based highway bridge precast beam information management system of claim 1, wherein the intelligent planning module comprises:

the query unit is used for querying the beam field precast beam production data;

the early warning unit is used for comparing the actual working progress with the beam field production plan and carrying out early warning according to the comparison result;

and the adjusting unit is used for dynamically adjusting the beam field production plan according to the early warning result and displaying the current state in color.

5. The BIM-based highway bridge precast beam information management system of claim 4, wherein the beam farm precast beam production data includes precast Liang Bianhao, bridge name, beam type, beam length, beam position, flow line, planned beam start date, planned beam finish date, planned installation date, current status.

6. The BIM-based highway bridge precast beam information management system of claim 1, wherein the information management and control module comprises:

the model building unit is used for building a BIM three-dimensional model;

and the display unit is used for displaying the installed precast beam and the uninstalled precast beam.

7. The BIM-based highway bridge precast beam information management system of claim 6, wherein the BIM display unit includes:

the BIM modeling unit is used for building a BIM three-dimensional model according to the beam field and the flow section information;

the cloud design unit is used for carrying out self-defined design and adjustment on the BIM three-dimensional model through a cloud;

and the prediction unit is used for dynamically simulating the BIM three-dimensional model through a neural network based on a time axis and an early warning result and predicting the construction progress of the project.

8. The BIM-based highway bridge precast beam information management system of claim 1, wherein the system setting module includes:

the system authority unit is used for acquiring the operation authority of the BIM three-dimensional model based on different levels of personnel;

the system management unit is used for managing engineering information, system personnel, interface topics and operation rights.

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