CN112001680A

CN112001680A - BIM-based highway engineering management system

Info

Publication number: CN112001680A
Application number: CN202010877555.XA
Authority: CN
Inventors: 向正松; 彭伟; 唐诗皓; 刘万春; 李海清; 周明凯; 王海珠; 郭玉龙; 秦春伟; 齐飞; 李金阳; 阮玲玉
Original assignee: Sichuan Road and Bridge Group Co Ltd
Current assignee: Sichuan Road and Bridge Group Co Ltd
Priority date: 2020-08-27
Filing date: 2020-08-27
Publication date: 2020-11-27

Abstract

The invention discloses a BIM-based highway engineering management system, which comprises: the quality module is used for associating the quality inspection problem in the project construction process with the BIM model and performing quality approval circulation; the safety module is used for associating the safety inspection problem in the project construction process with the BIM model and conducting safety approval circulation; the data module is used for associating various project data with the BIM in the project construction process to carry out data collaboration, application and sharing; the progress module is used for building and editing a progress planning task, associating the BIM with the progress task and carrying out a 4D virtual building process; the material management is used for carrying out a BIM + GIS module on the material, and is used for displaying a visual scene by combining the BIM module and GIS data and forming project-level summarized data; and the large screen module is used for summarizing the enterprise-level data. The system of the invention is based on BIM, can manage the quality, safety, data and progress of the project construction process and summarize project level and enterprise level data, and is convenient for the overall process control of the project construction.

Description

BIM-based highway engineering management system

Technical Field

The invention relates to the field of highway engineering management, in particular to a BIM-based highway engineering management system.

Background

In the engineering project construction life cycle, the number of project participants is large, the project information content is various and large, and in the engineering project collaborative management process, the phenomena of fuzzy project information data, serious information loss and the like often occur, so that the project information cannot be sufficiently and effectively transmitted and shared among all the participants, the project management efficiency is greatly reduced, and the normal operation of the engineering project is influenced. Meanwhile, as modern engineering construction projects are becoming large and complex, the informatization degree of each stage of the project construction cannot meet development requirements, for example, CAD drawing cannot meet the complex structural design requirements, and if a traditional information management mode is used for carrying out collaborative management on each participant of the construction project, a great deal of energy and time are inevitably consumed, so that the project construction cost is increased, the project change is increased, the construction period is delayed, and the like. Therefore, it is a necessary trend to apply advanced information management technology to perform collaborative management on each participant of the construction project.

In recent years, with the rapid development of the BIM technology in the field of engineering construction, a new opportunity is brought to domestic construction enterprises, and a new challenge is also provided. By means of the BIM technology, the change of the traditional project management mode of construction enterprises is one of the key elements for improving market competitiveness in the new situation. On the basis of information integration of each stage of engineering project construction, information integration and sharing among project participants are realized. Meanwhile, the BTM concentrates all the participants on a common three-dimensional working platform for cooperation and information transmission in the project implementation process by virtue of the visualization characteristic of the BTM, so that the unification of project targets in implementation is ensured, and the cooperation efficiency among the project participants is greatly improved. Therefore, the popularization and application of the BIM-based construction engineering management system in the construction industry provide strong information technology support for the improvement of the management efficiency of engineering projects and provide a new direction for project collaborative management.

Disclosure of Invention

Accordingly, in order to solve the above-mentioned disadvantages, the present invention provides a building engineering management system based on BIM; the system of the invention is based on BIM, can manage the quality, safety, data and progress of the project construction process and summarize project level and enterprise level data, and is convenient for the overall process control of the project construction.

The invention is realized in this way, construct a road engineering management system based on BIM, characterized by that; the system comprises a terminal and an application server system; the terminal comprises a client, a mobile terminal and a Web terminal;

the application server system includes:

a quality management module: providing a quality inspection item configuration function (text input, date input, associated personnel, an associated model and the like), and then assigning, rectifying, rechecking and closing a loop on the quality problem by newly establishing a quality inspection flow;

a safety management module: providing a security inspection item configuration function (text input, date input, associated personnel, an associated model and the like), and then assigning, rectifying, rechecking and closing a loop on the security problem by newly establishing a security inspection flow;

the data management module: the method supports uploading of engineering data, can be connected with a BIM model in a hanging mode, can upload data types including common files such as CAD drawings, OFFICE documents, PDF documents, construction progress photos, compressed packages and the like, and can search in multiple dimensions according to time and types;

the progress planning module: the method comprises the following steps of (1) scheduling, namely establishing a new schedule, and quickly defining main parameters of the schedule and the actual schedule, such as task names, duration, starting time, ending time and the like; the BIM model is correlated, the progress plan can be correlated with the BIM model, and each progress task can be correlated with various BIM model components;

the material management module: warehousing materials, adding warehousing planning lists (material names, specification models, units, unit prices, warehousing quantity and remark information) and supporting warehousing list keyword search; material delivery, namely adding delivery plan lists (document numbers, delivery names, delivery dates and information of dealers) and supporting keyword search of the delivery lists; the inventory statistics is that the current inventory of the materials can be inquired and counted according to the data of the warehousing single materials and the data of the ex-warehouse single materials;

BIM + GIS Module: the method comprises the following steps of performing three-dimensional scene visual management and application, namely performing three-dimensional scene visual management and cooperative application by combining BIM model data, GIS data and quality management, safety management and data management system data thereof; managing and applying the component attribute information, and visually checking component attributes (basic information such as size, elevation and position) and information (coding information) of the BIM; managing and applying project data, and visually checking the BIM and project data hung and connected with the components of the BIM in combination with the BIM; managing and applying project schedules, and visually checking a BIM virtual generation process according to schedule plan actual (plan time or actual time) by combining a BIM; managing and applying a collaborative process, and visually checking the BIM and quality inspection and safety inspection data of hanging connection of the BIM and components thereof in combination with the BIM;

the large screen module: project management, which is to count enterprise projects, including project attributes, project types, project states, project quantity distribution and competitive projects; the quality is safe, and the group project conditions are counted, wherein the group project conditions comprise safe construction time, civilized construction site standard reaching rate, quality qualification rate, civilized project list and excellent project list; enterprise information, displaying enterprise news, and counting results of enterprises in the last three years in patent and construction methods, standards and prize winning conditions; and managing personnel, counting the personnel in the enterprise, and performing classified counting according to the academic history, age, titles and the like of the personnel in the enterprise so as to perform real name system of labor personnel and staff counting of the enterprise. And (4) operation management, wherein the operation management carries out statistics on income, output value, carrying tasks and the like according to time.

The invention has the following advantages: the invention discloses a BIM-based highway engineering management system, which comprises: the quality module is used for associating the quality inspection problem in the project construction process with the BIM model and performing quality approval circulation; the safety module is used for associating the safety inspection problem in the project construction process with the BIM model and conducting safety approval circulation; the data module is used for associating various project data with the BIM in the project construction process to carry out data collaboration, application and sharing; the progress module is used for building and editing a progress planning task, associating the BIM with the progress task and carrying out a 4D virtual building process; the material management is used for carrying out a BIM + GIS module on the material, and is used for displaying a visual scene by combining the BIM module and GIS data and forming project-level summarized data; and the large screen module is used for summarizing the enterprise-level data. The system of the invention is based on BIM, can manage the quality, safety, data and progress of the project construction process and summarize project level and enterprise level data, and is convenient for the overall process control of the project construction.

Drawings

Fig. 1 is a block diagram of a building engineering management system based on BIM according to the present invention.

Detailed Description

The present invention will be described in detail with reference to fig. 1, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1, the present invention provides a BIM-based construction project management system by improvement, including:

a quality management module: and providing a quality inspection item configuration function (text input, date input, associated personnel, an associated model and the like), and then assigning, rectifying, rechecking and closing the loop to the quality problem by newly establishing a quality inspection flow.

A safety management module: providing a security check item configuration function (text input, date input, associated personnel, an associated model and the like), and then assigning, rectifying, rechecking and closing a loop on the security problem by newly establishing a security check flow.

The data management module: the method supports uploading of engineering data, can be connected with the BIM model in a hanging mode, can upload data types including common files such as CAD drawings, OFFICE documents, PDF documents, construction progress photos, compressed packages and the like, and can search in multiple dimensions according to time and types.

The progress planning module: the method comprises the following steps of (1) scheduling, namely establishing a new schedule, and quickly defining main parameters of the schedule and the actual schedule, such as task names, duration, starting time, ending time and the like; the BIM models are correlated, the schedule plan can be correlated with the BIM models, and each schedule task can be correlated with a plurality of different BIM model components.

The material management module: warehousing materials, adding warehousing planning lists (material names, specification models, units, unit prices, warehousing quantity and remark information) and supporting warehousing list keyword search; material delivery, namely adding delivery plan lists (document numbers, delivery names, delivery dates and information of dealers) and supporting keyword search of the delivery lists; and (4) stock statistics, wherein the current stock of the materials can be inquired and counted according to the data of the warehousing-in materials and the data of the ex-warehouse materials.

BIM + GIS Module: the method comprises the following steps of performing three-dimensional scene visual management and application, namely performing three-dimensional scene visual management and cooperative application by combining BIM model data, GIS data and quality management, safety management and data management system data thereof; managing and applying the component attribute information, and visually checking component attributes (basic information such as size, elevation and position) and information (coding information) of the BIM; managing and applying project data, and visually checking the BIM and project data hung and connected with the components of the BIM in combination with the BIM; managing and applying project schedules, and visually checking a BIM virtual generation process according to schedule plan actual (plan time or actual time) by combining a BIM; and managing and applying the collaborative process, and visually checking the BIM and the quality inspection and safety inspection data of the hanging connection of the components of the BIM in combination with the BIM.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A BIM-based highway engineering management system is characterized in that; the system comprises a terminal and an application server system; the terminal comprises a client, a mobile terminal and a Web terminal;

the application server system includes:

the large screen module: project management, which is to count enterprise projects, including project attributes, project types, project states, project quantity distribution and competitive projects; the quality is safe, and the group project conditions are counted, wherein the group project conditions comprise safe construction time, civilized construction site standard reaching rate, quality qualification rate, civilized project list and excellent project list; enterprise information, displaying enterprise news, and counting results of enterprises in the last three years in patent and construction methods, standards and prize winning conditions; personnel management, namely counting the personnel in the enterprise, and performing classified counting according to the academic calendar, age, title and the like of the personnel in the enterprise so as to perform real name system of labor personnel and employee counting of the enterprise;

and (4) operation management, wherein the operation management carries out statistics on income, output value, carrying tasks and the like according to time.