CN111860895A - BIM-based bridge auxiliary facility operation maintenance management system - Google Patents

Abstract

The invention relates to a BIM-based bridge affiliated facility operation maintenance management system, which adopts a layered model, an Vue framework at the front end, a flash framework at the server end, BIM Revit, Dynamo, Navisvarks and Lumion software technologies at the data layer and a MySQL relational database management system for storing text data in the system; the system comprises six modules of affiliated facility component management, affiliated facility document management, construction dynamic management, operation and maintenance management and control, a user center and a personal center. The system is beneficial to the omnibearing operation, maintenance and management from construction to operation and maintenance of the bridge auxiliary facilities.

Description

BIM-based bridge auxiliary facility operation maintenance management system

Technical Field

The invention relates to the technical field of bridge construction management, in particular to a BIM-based bridge auxiliary facility operation maintenance management system.

Background

At present, due to the remarkable characteristics of Building Information Modeling (BIM) in the aspects of Information integration visualization, cooperative management and the like, the Building industry gradually enters the full Information age. Meanwhile, the BIM technology is used as an information management technology applied to the whole life cycle of a building structure, and has great economic benefits in the aspect of construction information management of engineering projects.

The bridge operation maintenance management system is a set of comprehensive management technology combining functions of data classification, data acquisition, detection equipment management, data entry and storage, state evaluation, decision suggestion proposal and the like. The bridge management system becomes a part of office automation of bridge management and maintenance departments, can assist in participating in management, and provides necessary data support for other departments such as design, construction and the like. The collaborative work platform based on the BIM technology can solve the problem that the integrity, timeliness, authenticity and sharing performance of data in project construction cannot be well realized, and plays a role of achieving double results with half the effort for smooth progress of the interchange project.

Disclosure of Invention

The invention aims to provide a BIM-based bridge auxiliary facility operation, maintenance and management system which is beneficial to the omnibearing operation, maintenance and management of bridge auxiliary facilities.

In order to achieve the purpose, the invention adopts the technical scheme that: a BIM-based bridge affiliated facility operation maintenance management system adopts a layered model, a Vue framework is adopted at the front end, a flash framework is adopted at the server end, Revit, Dynamo, Navisvarks and Lumion software technologies of BIM are applied to a data layer, and a MySQL relational database management system is used for storing text data in the system; the system comprises six modules of auxiliary facility component management, auxiliary facility document management, construction dynamic management, operation and maintenance management and control, a user center and a personal center, so that the bridge auxiliary facility is comprehensively managed from construction to operation and maintenance.

Further, the accessory facility component management module is divided into an integral model, a navigable pore bridge accessory facility, a non-navigable pore bridge accessory facility, a full-bridge wind barrier and sound barrier, a bridge comprehensive grounding facility, a bridge power supply and lighting facility and a health monitoring system reserved component module according to the structural characteristics of a bridge accessory project, and each part of model files and construction map files are recorded into a system so as to facilitate searching, management and modification of workers.

Furthermore, the attached facility document management module collects all documents of the attached engineering, including an engineering quantity table, drawing files and model files, so as to realize centralized collection and management of engineering contents and version control of the files, and control the data in the process.

Furthermore, the construction dynamic management module comprises a construction process, construction progress management, personnel participating information, safety quality management, dynamic decision management and a personal working platform module; the construction dynamic management module tracks and controls construction progress based on the BIM technology, tracks the actual progress of the engineering project in real time, compares the planned progress with the actual progress, and analyzes the influence degree of deviation on the construction period and the reasons generated in time; meanwhile, through the service provided by the BIM database, the user can assemble and display the quality acceptance condition, the quality management record of the construction machine and the quality problem.

Furthermore, the operation and maintenance management and control module is used for checking basic information of the equipment and tracing historical data of the equipment; a user can quickly acquire complete process information of the engineering entity and support acceptance and handover stage related business application; and managing and controlling the energy consumption of the bridge affiliated facility system by establishing the operation and maintenance database.

Furthermore, the user center module is used for providing basic management functions including user information input, modification and viewing for system management personnel, and has functions of adding, resetting, deleting and exporting user information.

Furthermore, the personal center module is used for meeting the requirements of personal entry, modification and deletion of personal information of common users; the module can check the historical operation log of a person on a platform, and has the function of account safety protection, so that the construction process is prevented from being disturbed by external invasion.

Compared with the prior art, the invention has the following beneficial effects: the system carries out operation maintenance management on the bridge auxiliary facilities based on the BIM technology, can realize the functions of project component management, document management, construction management, operation and maintenance inquiry, personal center and the like, and carries out all-round management from construction to operation and maintenance on the bridge auxiliary facilities. Meanwhile, based on a uniform bottom platform, the project management system performs uniform management on the data of each stage, which is beneficial to solving the phenomenon of information isolated island and solving the problems of untimely and unsmooth information communication among all the participants and unreal and asymmetrical information transmission. Therefore, the invention has strong practicability and wide application prospect.

Drawings

FIG. 1 is a system architecture diagram according to an embodiment of the present invention.

FIG. 2 is a diagram of a user login interface in an embodiment of the invention.

FIG. 3 is a schematic diagram of a system main interface in an embodiment of the invention.

FIG. 4 is a schematic illustration of an ancillary facility component management interface in accordance with an embodiment of the present invention.

FIG. 5 is a schematic diagram of an affiliated facility document management interface in an embodiment of the present invention.

FIG. 6 is a schematic diagram of a construction dynamic management interface in an embodiment of the invention.

Fig. 7 is a schematic diagram of an operation and maintenance management and control interface in the embodiment of the present invention.

FIG. 8 is a schematic diagram of a user centric interface in an embodiment of the invention.

FIG. 9 is a schematic diagram of a personal hub interface in an embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the figures and the embodiments.

As shown in fig. 1, the invention provides a BIM-based bridge affiliated facility operation maintenance management system, which adopts a layered model, a Vue framework at the front end, a flash framework at the server end, software technologies such as Revit, Dynamo, Navisworks and Lumion, which are professional in BIM, as well as a MySQL relational database management system to store text data in the system; the system comprises six modules of auxiliary facility component management, auxiliary facility document management, construction dynamic management, operation and maintenance management and control, a user center and a personal center, so that the bridge auxiliary facility is comprehensively managed from construction to operation and maintenance.

The auxiliary facility component management module is divided into an integral model, a navigable access bridge auxiliary facility, a non-navigable access bridge auxiliary facility, a full-bridge wind barrier and sound barrier, a bridge comprehensive grounding facility, a bridge power supply and lighting facility, a health monitoring system reserved part and other modules according to the structural characteristics of a bridge auxiliary project, and each part of model files and construction map files are input into the system so as to facilitate searching, management and modification of workers.

The accessory facility document management module collects all documents of the accessory project, including a project quantity table, drawing files, model files and the like, so as to realize centralized collection and management of project contents and version control of the files, and control of data in the process.

The construction dynamic management module comprises modules such as a construction process, construction progress management, participant information, safety quality management, dynamic decision management, a personal working platform and the like. The construction dynamic management module tracks and controls construction progress based on the BIM technology, tracks the actual progress of the engineering project in real time, compares the planned progress with the actual progress, and analyzes the influence degree of deviation on the construction period and the reason of the deviation in time. Meanwhile, through the service provided by the BIM database, the user can assemble and display the quality acceptance condition, the quality management record of the construction machine and the quality problem.

The operation and maintenance management and control module can conveniently check the basic information of the equipment and trace the historical data of the equipment. The user can quickly acquire the complete process information of the engineering entity and support the acceptance and handover stage related business application. The energy consumption of the bridge affiliated facility system can be conveniently and quickly controlled by establishing the operation and maintenance database. And reserving an auxiliary facility health monitoring and managing system.

The user center module is used for providing basic user information input, modification, viewing and other management functions for system management personnel, has functions of adding, resetting, deleting and exporting user information, and is not open to ordinary users so as to ensure system safety.

The personal center module is used for meeting the requirements of a common user for personal entry, modification and deletion of personal information. The module can check the historical operation log of a person on a platform, and has the function of account safety protection, so that the construction process is prevented from being disturbed by external invasion.

The following further describes the related technical content related to the bridge subsidiary facility operation maintenance management system.

1. System hardware environment

The system employs python programming. The operation environment is as follows: centos linux; a processor: intel (R) Xeon (R) Bronze 3106 CPU @1.70 GHz; memory: a 64G RAM; hard disk: the available space of the hard disk is more than 1T. And (3) developing environment: microsoft Visual Studio 2008; a processor: intel (R) Xeon (R) Bronze 3106 CPU @1.70 GHz; memory: a 64G RAM; hard disk: the available space of the hard disk is more than 1T.

2. System login

The website is input in the Internet browser, and the system can be accessed after the correct user name and password box are input in the login interface. The user login interface is shown in fig. 2.

3. System function

1) System main interface

The system main interface mainly comprises four parts: a system main menu bar, a project information consultation bar, a system bulletin bar and a user name.

The system main menu comprises: subsidiary facility component viewing management, subsidiary facility document data viewing management, construction dynamic management, operation and maintenance management, user personal center and the like.

Item information consulting board: news information related to the latest project and recent project dynamics are displayed, so that the user can understand the matters in the process of the auxiliary facility construction project.

A system bulletin board: the user can directly view the system bulletin to know the recent notice. And displaying recently issued project decisions including project quality acceptance decisions, construction progress decisions and the like.

User name: not only displays the current online user, but also is the personal center and the entrance for logging out.

The system main interface is shown in fig. 3.

2) Accessory structure

Introduction of functions: the system is roughly divided into several modules according to the construction drawing of the accessory facility. Clicking to enter each module, and checking the attached facilities of each part structure. And displaying each module component in a mode of two-dimensional CAD drawing → three-dimensional Revit model. Namely, a user positions a required part through a plane drawing and clicks and browses through a three-dimensional file (different angles and different sections). The block of each component supports file searching, modifying and uploading updating functions, and meanwhile, historical files are gathered into a 'modification record' block. As shown in fig. 4.

3) Affiliated facility documentation

Introduction of functions: the part collects all documents of the auxiliary project, including a project quantity table, a construction drawing file, a BIM model file and the like, and each section is classified according to different spatial structures. As shown in fig. 5.

4) Construction dynamics

The plate is used for reflecting all information of the construction process of the auxiliary facilities.

The construction progress management method comprises the steps of overall and local construction progress, information of building participation personnel, construction progress of personal responsibility, safety management information in the construction process, dynamic decision information and the like. A dynamic interface is constructed as shown in figure 6.

(1) Construction process

Introduction of functions: the construction process situation is embodied through the progress chart and other site charts, and meanwhile, the method has the function of modifying (deleting and adding) the construction state on line.

(2) Construction progress management

Introduction of functions: the construction period (particularly the year, month and day) and the progress condition of specific steps in the construction flow are recorded into the system by knowing various information such as a BIM database, construction drawings, actual field conditions and the like. The completed part is represented by a green icon of completed, the uncompleted part is represented by a green icon of uncompleted, and the system also has the functions of searching, modifying, adding items, deleting and the like.

(3) Information of participating personnel

Introduction of functions: all management and operating personnel information of the project are input into the system, and the system has the functions of personnel qualification examination, addition, change, off duty, inquiry and the like.

(4) Security quality management

Introduction of functions: based on the service of the BIM database, a user can manage and check construction site data, carry out safety compromise on construction technology, track quality safety tasks in real time, and carry out supervision management and overall arrangement on site personnel arrangement.

Managing field data: including field quality acceptance data, and the like.

Arranging field personnel: the real-name information base of the participators is established, the construction site personnel are registered and supervised, and the on-duty conditions of project responsible personnel and site management personnel are verified.

Thirdly, construction safety bottom crossing: and (3) associating laws and regulations, safety background data and the model, and checking corresponding safety specifications and schemes by clicking the area or the component to be constructed.

Quality safety task tracking: including security risk management and security culture inspection. And associating the safety risk source, the safety emergency plan, the safety technical scheme and the like which are judged in advance with the corresponding model position, and combining the progress plan to realize early warning of the safety risk.

(5) Dynamic decision management

Introduction of functions: the plate is convenient for a construction party and a subsidiary project chief manager and a subsidiary production manager on the site of a chief contract square tube to carry out scientific decision and control based on dynamic data. The method is characterized in that key indexes in the project construction process are obtained in real time, a convenient way for obtaining information is provided for an enterprise leadership, and real-time updated data in the project construction process is mastered anytime and anywhere so as to make correct decision and reward punishment.

(6) Personal work platform

Introduction of functions: departments as well as individual backlogs, transacted items, and the like may be viewed, recorded, and the like. Meanwhile, the system also has a to-do reminding function, so that the project schedule is prevented from being delayed due to personal negligence, and the working efficiency is improved. In addition, basic functions of searching, adding, deleting and the like of project items are supported.

5) Operation and maintenance management and control

Introduction of functions: the method is mainly applied to the later operation of the system. Recording, modifying and inquiring the information of the staff; energy consumption of the system, instrument loss, and data recording and analysis of system health monitoring. The operation and maintenance management and control system based on the BIM is established and fused with the safety factor index online acquisition technology, the internal force state and the damage condition of the bridge structure are mastered at any time, the dangerous condition of the bridge structure is discovered as early as possible, a basis is provided for maintenance of the bridge structure, meanwhile, the daily management and maintenance work of the bridge and other work are managed, and management and maintenance work systematization, management and maintenance technology modernization and management and maintenance decision scientization can be realized. The method comprises the steps of comprehensively evaluating the structure safety, the component safety and the operation safety of the bridge auxiliary structure, setting an index threshold value related to the safety, giving early warning or alarm information when the bridge encounters a risk event or performance degradation, and realizing linkage type cooperative work through multi-department and multi-terminal information sharing. As shown in fig. 7.

(1) Staff information: the information of the staff of the operation and maintenance system is collected, and the staff information, the equipment information and the bridge operation and maintenance information are connected in series through the BIM database, so that the responsibility of each staff is put in place, unnecessary repeated labor of the staff can be reduced, the workload is relieved, and the working efficiency is improved.

(2) System energy consumption management (reservation module): the method comprises the steps of carrying out data acquisition on a large number of devices of bridge accessory facility engineering in different life cycles, different types and purposes, analyzing state information of the devices in real time, coordinating and integrating bridge energy consumption management through the application of a BIM technology, and enabling engineering technicians and a management system to correctly understand and efficiently deal with various energy consumption information of a bridge.

(3) System health monitoring (reservation module): the method has the advantages that the structural information and the historical operation and maintenance information of the bridge are mastered by adopting a digital means, the monitoring of the bridge safety state and the early warning of risk events are realized through the online acquisition of the operation and maintenance safety indexes, and the bridge structural safety is guaranteed. Meanwhile, the collected, screened and filed data can provide reference for operation and maintenance management of similar large-scale bridge structures and accumulate experience.

6) User center

Introduction of functions: the module is mainly used for providing basic user information input, modification, viewing and other management functions for system management personnel, and has the functions of adding, resetting, deleting and exporting user information. As shown in fig. 8.

7) Personal center

Introduction of functions: the module provides personal common users to modify personal data, including account security setting function and personal operation log. As shown in fig. 9.

(1) Basic information: including filling in and modifying information of user's name, sex, job title, affiliated department, post, etc.

(2) And (3) account security: including user account binding, password modification, password recovery, off-site login, etc.

The above are preferred embodiments of the present invention, and all changes made according to the technical scheme of the present invention that produce functional effects do not exceed the scope of the technical scheme of the present invention belong to the protection scope of the present invention.

Claims (7)

1. A BIM-based bridge affiliated facility operation maintenance management system is characterized in that the system adopts a layered model, the front end adopts an Vue framework, the server end adopts a flash framework, the data layer adopts the Revit, Dynamo, Navisvarks and Lumion software technologies of BIM, and a MySQL relational database management system is used for storing text data in the system; the system comprises six modules of auxiliary facility component management, auxiliary facility document management, construction dynamic management, operation and maintenance management and control, a user center and a personal center, so that the bridge auxiliary facility is comprehensively managed from construction to operation and maintenance.

2. The BIM-based bridge auxiliary facility operation maintenance management system of claim 1, wherein the auxiliary facility component management module is divided into an integral model, a navigable pore bridge auxiliary facility, a non-navigable pore bridge auxiliary facility, a full-bridge wind barrier and sound barrier, a bridge comprehensive grounding facility, a bridge power supply and lighting facility and a health monitoring system reservation module according to the structural characteristics of a bridge auxiliary project, and each part of model files and construction map files are recorded into the system to facilitate searching, management and modification of workers.

3. The BIM-based bridge auxiliary facility operation, maintenance and management system of claim 1, wherein the auxiliary facility document management module collects all documents of auxiliary projects, including project quantity tables, drawing files and model files, so as to realize centralized collection and management of project contents and version control of the documents, so that the data is controlled in the process.

4. The BIM-based bridge auxiliary facility operation maintenance management system of claim 1, wherein the construction dynamic management module comprises a construction process, construction progress management, participating personnel information, safety quality management, dynamic decision management and a personal working platform module; the construction dynamic management module tracks and controls construction progress based on the BIM technology, tracks the actual progress of the engineering project in real time, compares the planned progress with the actual progress, and analyzes the influence degree of deviation on the construction period and the reasons generated in time; meanwhile, through the service provided by the BIM database, the user can assemble and display the quality acceptance condition, the quality management record of the construction machine and the quality problem.

5. The BIM-based bridge auxiliary facility operation maintenance management system of claim 1, wherein the operation management and control module is used for checking basic information of equipment and tracing historical data of the equipment; a user can quickly acquire complete process information of the engineering entity and support acceptance and handover stage related business application; and managing and controlling the energy consumption of the bridge affiliated facility system by establishing the operation and maintenance database.

6. The BIM-based bridge auxiliary facility operation maintenance management system of claim 1, wherein the user center module is used for providing basic management functions including user information input, modification and viewing for system management personnel, and has functions of adding, resetting, deleting and exporting user information, and the module is not open to ordinary users to ensure system security.

7. The BIM-based bridge auxiliary facility operation maintenance management system of claim 1, wherein the personal center module is used for meeting the requirement of a common user for personal entry, modification and deletion of personal information; the module can check the historical operation log of a person on a platform, and has the function of account safety protection, so that the construction process is prevented from being disturbed by external invasion.

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