CN109214679B - Project engineering management system based on building information model - Google Patents

Abstract

The invention discloses a project engineering management system based on a building information model. The management system includes: the system comprises a system server, a building information model base and a project engineering management database; the system server comprises a building information acquisition module, a statistical analysis module and a monitoring module; the building information model library comprises a building information model construction module and a building component information extraction module; respectively used for constructing a building information model and extracting building component information from the building information model; the project engineering management database comprises a building material management module and a project progress control module; and the project progress control module is used for judging whether project construction meets engineering requirements according to the building component information and controlling the construction progress of a construction site according to a judgment result. The invention can effectively improve the working efficiency of each party, reduce the working intensity and improve the working quality.

Description

Project engineering management system based on building information model

Technical Field

The invention relates to the technical field of engineering projects, in particular to a project engineering management system based on a building information model.

Background

The management of construction project is a complex systematic work, especially for scale project, including process control, personnel information control, budget control, etc. A Building Information Model (BIM) was proposed by Autodesk in 2002 and is a Building informatization tool widely used in the Building field. The building information model is based on a 3D digital technology, inherits an engineering data model of various related information of a construction engineering project, and is a digital expression of engineering project facility entities and functional characteristics. A complete building information model can be used for associating data, processes and resources of different stages (design, construction and operation) of the life cycle of a building project, is a complete description of an engineering object, and can be commonly used by all participants of the building project.

In some engineering projects such as communication and construction, a supervisor is usually required to go to the site for supervision, so as to ensure that the engineering projects can be completed according to a preset time. On one hand, the monitoring process can be completed only by running of the supervision personnel, and the consumed human resources are large. In addition, the manual supervision mode is discontinuous in time on site, the operation process cannot be monitored in real time, the project is already carried out for a period of time when problems are often found, and the situations of deviation and the like cannot be corrected in time easily.

Disclosure of Invention

The invention aims to provide a project engineering management system based on a building information model, which can remotely monitor whether a project implementation site meets engineering requirements in real time, automatically adjust project progress according to changes in the implementation process and monitor the project implementation site, effectively improve the working efficiency of each party, reduce the working intensity and improve the working quality.

In order to achieve the purpose, the invention provides the following scheme:

a project engineering management system based on a building information model, comprising: the system comprises a system server, a building information model base and a project engineering management database; the system server is connected with the building information model base and the project engineering management database through various networks to realize data transmission and storage;

the system server comprises a building information acquisition module, a statistical analysis module and a monitoring module; the building information acquisition module is used for acquiring building information data, the statistical analysis module is used for performing statistical analysis on the building information data acquired by the acquisition module, and the monitoring module is used for remotely monitoring the construction site condition of a building site;

the building information model library comprises a building information model construction module and a building component information extraction module; the building information model building module is used for building a building information model according to the building information data; the building component information extraction module is used for extracting building component information from the building information model;

the project engineering management database comprises a building material management module and a project progress control module, wherein the material management module is used for controlling the supply progress of building materials according to the use progress of the materials of a construction site; and the project progress control module is used for judging whether project construction meets engineering requirements according to the building component information and controlling the construction progress of a construction site according to a judgment result.

Optionally, the building element information extraction module extracts building element information of walls, plates, columns, stairs, doors, windows, railings, and roofs from the building information model, and establishes building element information model semantics, where the building element information model semantics include: the relationship between the entity and the floor, the relationship between the entity and the component category, the material attribute of the entity, the geometric parameter attribute of the entity, the dependency relationship between the entities and the statistical information.

Optionally, the system server further includes a human resource module and a contract management module, where the human resource module is used to manage personnel, finance, wages and documents in the building project, and record personal information, account information and tax payment status of various workers in the building project in a classified manner; the contract management module is used for managing contract price adjustment and contract execution progress of the construction project.

Optionally, the human resource module further includes a settlement unit, configured to perform multiple batches of settlement on each type of contract by using the contract settlement list, and performing statistics and accounting on actual settlement cost of engineering, actual material cost, and actual mechanical equipment cost; the exporting unit is used for exporting and printing the project list and checking the settlement fee with the related subcontractor; and the management unit is used for managing the prepayment and the wage, completing the calculation and the distribution of various wages of personnel and making a work account aiming at the related wage.

Optionally, the project progress control module further includes a project monitoring unit, configured to obtain building information of a project construction site in real time, compare the obtained building information with the building element information, determine whether a comparison result is within a preset error range, determine that the current building project construction is qualified if the comparison result is within the error range, determine that the current building project construction is unqualified if the comparison result exceeds the error range, and perform an adjustment operation on the currently constructed building project.

According to the specific embodiment provided by the invention, the invention discloses the following technical effects:

the invention provides a project engineering management system based on a building information model, which can remotely monitor whether a project implementation site meets engineering requirements in real time by establishing the building information model, extracting building component information and monitoring a project construction site in real time, automatically adjust project progress according to changes in the implementation process and monitor, effectively improve the working efficiency of each party, reduce the working intensity and improve the working quality.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of a project engineering management system based on a building information model according to embodiment 1 of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the 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.

The invention aims to provide a project engineering management system based on a building information model, which can remotely monitor whether a project implementation site meets engineering requirements in real time, automatically adjust project progress according to changes in the implementation process and monitor the project implementation site, effectively improve the working efficiency of each party, reduce the working intensity and improve the working quality.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.

Example 1

Fig. 1 is a schematic structural diagram of a project engineering management system based on a building information model according to an embodiment of the present invention.

As shown in fig. 1, a project engineering management system based on a building information model includes: the system comprises a system server 1, a building information model base 2 and a project engineering management database 3; the system server 1 is connected with the building information model base 2 and the project engineering management database 3 through various networks to realize data transmission and storage;

the system server 1 comprises a building information acquisition module 101, a statistical analysis module 102 and a monitoring module 103; the building information acquisition module 101 is used for acquiring building information data, the statistical analysis module 102 is used for performing statistical analysis on the building information data acquired by the acquisition module, and the monitoring module 103 is used for remotely monitoring the construction site condition of a building site;

the building information model library 2 comprises a building information model construction module 201 and a building component information extraction module 202; the building information model construction module 201 is used for constructing a building information model according to building information data; the building component information extraction module 202 is configured to extract building component information from a building information model;

the project engineering management database 3 comprises a building material management module 301 and a project schedule control module 302, wherein the material management module 301 is used for controlling the supply schedule of building materials according to the use schedule of construction site materials; the project progress control module 302 is configured to determine whether project construction meets engineering requirements according to the building component information, and control a construction progress of a construction site according to a determination result.

The building component information extraction module 202 extracts building component information of walls, plates, columns, stairs, doors, windows, railings, and roofs from the building information model, and establishes building component information model semantics, which include: the relationship between the entity and the floor, the relationship between the entity and the component category, the material attribute of the entity, the geometric parameter attribute of the entity, the dependency relationship between the entities and the statistical information.

The system server 1 further comprises a human resource module 104 and a contract management module 105, wherein the human resource module 104 is used for managing personnel, finance, wages and documents in the construction project, and recording personal information, account information and tax payment conditions of various workers in the construction project in a classified manner; the contract management module 105 is used for managing contract price adjustment and contract execution progress of the construction project.

The human resource module 104 further includes a settlement unit 1041, configured to perform multiple batches of settlement on each type of contract by using the contract settlement list, and performing statistics and accounting on the actual settlement cost of the project, the actual material cost, and the actual mechanical equipment cost; a exporting unit 1042 for exporting and printing the project list and checking the settlement fee with the related subcontractor; and a management unit 1043, configured to manage prepaid payment and wages, complete calculation and distribution of wages of various staff, and make a work account for related wages.

The project schedule control module 302 further includes a project monitoring unit 3021, configured to obtain building information of a project construction site in real time, compare the obtained building information with the building element information, determine whether a comparison result is within a preset error range, determine that the construction of the current building project is qualified if the comparison result is within the error range, determine that the construction of the current building project is unqualified if the comparison result exceeds the error range, and perform an adjustment operation on the currently constructed building project.

Example 2

A project engineering management system based on a building information model has the same other characteristics as embodiment 1, except that: when the project implementation place processing system receives the non-conforming instruction and adjusts the construction operation, the time points of all the finished projects can be correspondingly adjusted according to the actual progress condition of the project, and the effective completion of the project is ensured.

The invention provides a project engineering management system based on a building information model, which can remotely monitor whether a project implementation site meets engineering requirements in real time by establishing the building information model, extracting building component information and monitoring a project construction site in real time, automatically adjust project progress according to changes in the implementation process and monitor, effectively improve the working efficiency of each party, reduce the working intensity and improve the working quality.

The principles and embodiments of the present invention have been described herein using specific examples, which are provided only to help understand the method and the core concept of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims (4)

1. A project engineering management system based on a building information model is characterized by comprising: the system comprises a system server, a building information model base and a project engineering management database; the system server is connected with the building information model base and the project engineering management database through various networks to realize data transmission and storage;

the system server comprises a building information acquisition module, a statistical analysis module and a monitoring module; the building information acquisition module is used for acquiring building information data, the statistical analysis module is used for performing statistical analysis on the building information data acquired by the acquisition module, and the monitoring module is used for remotely monitoring the construction site condition of a building site;

the building information model library comprises a building information model construction module and a building component information extraction module; the building information model building module is used for building a building information model according to the building information data; the building component information extraction module is used for extracting building component information from the building information model;

the building component information extraction module extracts building component information of walls, plates, columns, stairs, doors, windows, railings and roofs from the building information model, and establishes building component information model semantics, wherein the building component information model semantics comprise: the relationship between the entity and the floor, the relationship between the entity and the component category, the material attribute of the entity, the geometric parameter attribute of the entity, the dependency relationship between the entities and the statistical information;

the project engineering management database comprises a building material management module and a project progress control module, wherein the material management module is used for controlling the supply progress of building materials according to the use progress of the materials of a construction site; and the project progress control module is used for judging whether project construction meets engineering requirements according to the building component information and controlling the construction progress of a construction site according to a judgment result.

2. The system for project engineering management based on the building information model according to claim 1, wherein the system server further comprises a human resource module and a contract management module, the human resource module is used for managing personnel, finance, wage and documents in charge of the building project, and recording personal information, account information and tax payment status of various workers in the building project in a classified manner; the contract management module is used for managing contract price adjustment and contract execution progress of the construction project.

3. The project engineering management system based on the building information model as claimed in claim 2, wherein the human resources module further comprises a settlement unit for performing multi-batch settlement for each type of contract by using the contract settlement list to count and account the project actual settlement cost, the material actual cost and the mechanical equipment actual cost; the exporting unit is used for exporting and printing the project list and checking the settlement fee with the related subcontractor; and the management unit is used for managing the prepayment and the wage, completing the calculation and the distribution of various wages of personnel and making a work account aiming at the related wage.

4. The project engineering management system based on the building information model as claimed in claim 1, wherein the project schedule control module further comprises a project monitoring unit for acquiring the building information of the site of the project construction in real time, comparing the acquired building information with the building element information, determining whether the comparison result is within a preset error range, determining that the construction of the current building project is qualified if the comparison result is within the error range, determining that the construction of the current building project is unqualified if the comparison result is outside the error range, and performing adjustment operation on the currently constructed building project.

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