CN109447480A - A kind of road and bridge engineering equipment safety monitoring system and method based on BIM+GIS modeling - Google Patents
A kind of road and bridge engineering equipment safety monitoring system and method based on BIM+GIS modeling Download PDFInfo
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- CN109447480A CN109447480A CN201811291694.3A CN201811291694A CN109447480A CN 109447480 A CN109447480 A CN 109447480A CN 201811291694 A CN201811291694 A CN 201811291694A CN 109447480 A CN109447480 A CN 109447480A
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- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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- G06Q10/0631—Resource planning, allocation, distributing or scheduling for enterprises or organisations
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- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06Q—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
- G06Q10/00—Administration; Management
- G06Q10/20—Administration of product repair or maintenance
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Abstract
The invention belongs to digital management technical fields.A kind of road and bridge engineering equipment safety monitoring system and method based on BIM+GIS modeling, safety monitoring system include BIM server, GIS-Geographic Information System, engineering equipment management system and road and bridge engineering construction information management platform;BIM server obtains the structural information of engineering equipment and establishes BIM model;GIS-Geographic Information System is connect with BIM server, is imported BIM model data in GIS-Geographic Information System using GIS technology, and is transferred to road and bridge engineering construction information management platform and is shown;Engineering equipment management system and the telecommunication of GIS GIS-Geographic Information System;Road and bridge engineering construction information management platform is connected with institute's engineering equipment management system.The present invention can be realized the roomage response of the real-time display of engineering equipment monitoring state, the Three dimensions control of engineering equipment and engineering equipment breakdown maintenance, keep equipment management orderly feasible, reach the security monitoring management of intelligent high-efficiency.
Description
Technical field
The invention belongs to digital management technical fields, and in particular to it is a kind of based on BIM+GIS modeling road and bridge engineering set
Standby safety monitoring system and method.
Background technique
It mainly include hoisting machinery, elevator, electronic box, bull-dozer, excavator etc. in building engineering equipment, wherein hoisting machinery
Belong to special equipment with elevator, carrying out security monitoring to engineering equipment is one that engineering and personnel safety are ensured in engineering construction
Important process.There is security monitor platform specifically for special equipment at present, can be realized map reading, real-time monitoring, pre-
The functions such as police, electronic record, control, and such security monitor platform is usually to be built by special safety equipment supervision and inspection research institute
If also just for certain special equipments.In addition to these special equipments in engineering construction, there are also other many equipment to need monitoring pipe
Reason, general engineering equipment security monitoring mainly pass through artificial timing and detect, and the mode for forming papery or electronic record is real
Existing, such mode is more extensive, and integrated level is not high, and framework is loose, cannot be managed collectively to all engineering equipments, management effect
Rate is not high.
Summary of the invention
The invention aims to solve above-mentioned technical problem, provide it is a kind of based on BIM+GIS modeling road and bridge engineering set
Standby safety monitoring system and method, the monitoring system have the characteristics that digitlization, visualize, is intelligentized, can to engineering equipment into
Row wisdom management improves failure response, the management, the integrated integrated management level of maintenance of equipment.
In order to achieve the above objectives, the invention adopts the following technical scheme:
A kind of road and bridge engineering equipment safety monitoring system based on BIM+GIS modeling, for the various aspects to engineering equipment
Situation change Real-time Monitor Management, the monitoring system include BIM server, GIS-Geographic Information System, engineering equipment management system and
Road and bridge engineering construction information manages platform;
The BIM server obtains the structural information of engineering equipment, is established according to the structural information multiple visual
Engineering equipment BIM model, wherein the corresponding project of each engineering equipment;
The GIS-Geographic Information System is connect with the BIM server, for believing each item setup monitoring scheme, equipment
Breath and measuring point information;The Geographic mapping that project is realized using GIS technology, BIM model data is parsed, is converted, gently
In quantification treatment and integrated importing GIS-Geographic Information System, and it is transferred to road and bridge engineering construction information management platform and is shown;
The engineering equipment management system and the telecommunication of GIS GIS-Geographic Information System, in engineering equipment front-end collection
Field data information, using the foundation as Dynamic Model;
The road and bridge engineering construction information management platform is connected with institute's engineering equipment management system, current for the project of checking
Service condition, breakdown maintenance situation, the curve graph of monitoring and monitoring report messages, engineering equipment is remotely monitored and be managed
Reason.
Further, the engineering equipment management system includes video monitoring module, breakdown maintenance logging modle and personnel
Management module, wherein
The video monitoring module is used to monitor each project in real time, and anomalous event is detected automatically,
Event message reports, event record;
The breakdown maintenance logging modle is for storing and managing the Plant maintenance plan information of each project, equipment variation
Information and equipment fault and inspection history information, and increase, deletion, modification, inquiry and statistical analysis are provided to above- mentioned information
Function;
The personal management module is for storing the corresponding engineering equipment management owner information of failure.
The present invention also provides a kind of road and bridge engineering equipment safety monitoring method based on BIM+GIS modeling, this method includes
Following steps:
S1, BIM model is established
BIM server obtains the structural information of engineering equipment, establishes visual engineering equipment according to the structural information
BIM model provides model support for the integrated of three-dimensional visualization engineering construction project map based on GIS technology;
S2, BIM model is imported into GIS-Geographic Information System
BIM model data is parsed, is converted, in light-weight technologg and integrated importing GIS-Geographic Information System, and is transmitted
It is shown to road and bridge engineering construction information management platform, realizes that the importing of scene data element and dynamic update;
S3, engineering equipment management system is established
Video monitoring module, breakdown maintenance logging modle and personal management module are docked, spatial data is integrated
Resource forms engineering equipment management system, and engineering equipment management system user's logon rights is arranged, and each user account is arranged and exists
Access the authority information of engineering equipment management system;
S4, road and bridge engineering construction information management platform is established
The road and bridge engineering construction information based on BIM and GIS is established according to the B/S network architecture and manages platform, by engineering equipment
Management system imports in road and bridge engineering construction information management platform, carries out space by the mutual straw line relationship of BIM and GIS data
Layout configuration, while showing BIM model, GIS model and engineering equipment management system information, realize the BIM of multiple engineering equipments
Displaying, operation and the data management of model, and generate monitoring report messages;
S5, security monitoring is carried out
It logs in road and bridge engineering construction information and manages platform, transfer current engineering equipment service condition, breakdown maintenance situation, prison
The curve graph and monitoring report messages of survey, issue instruction to GIS-Geographic Information System and engineering equipment management system, when monitoring report
In safety coefficient when except the safety value that empowerment management person is arranged, road and bridge engineering construction information manages platform to the personnel
Management module sends alarm signal.
Further, in the step S2, BIM model data is parsed, is converted, light-weight technologg specifically include with
Lower process:
(1) the BIM model that BIM software is established is switched into IFC formatted file, then model is extracted by IFC resolver
Geological information;
(2) model geometric information is imported into professional Web page image lightweight engine, to the invalid and nuisance parameter in model
Simplified, compact model size regenerates physical model;
(3) the surrounding geographical environmental information to physical model addition construction area, the relevant rudimentary static state of engineering equipment letter
Information is ceased, project site layout project model is generated.
Further, in the step S1, the foundation of BIM model include using AutoDesk company, Bentley company,
The BIM software of Dassault company manually models.
Further, in the step S4, road and bridge engineering construction information management platform is logged in method particularly includes: firstly,
User login information is inputted in road and bridge engineering construction information management platform, and verifies the log-on message, wherein the user
Log-on message includes user account;If the log-on message is proved to be successful, the road and bridge engineering construction information manages platform root
It is sent according to authority information of the user account in engineering equipment management system acquired in log-on message, and by the authority information
To the engineering equipment management system;Finally, the engineering equipment management system allows the user account to log on to road and bridge work
Journey construction information manages platform, and the corresponding operating right of the authority information received is opened to the user account.
Further, in the step S4, the personal management module is received after alarm signal with telephone call, center
The mode of alarm and/or SMS alarm makes corresponding alarm reaction.
Compared with prior art, the invention has the following advantages:
1, core of the invention is the engineering equipment safety monitoring system of GIS+BIM fusion, by by engineering equipment BIM mould
Type is merged with dimensional topography scene, and all engineering equipments are carried out to unified Real-time Monitor Management, and engineering equipment may be implemented
Unspecified angle and orientation rotation show, stepless zooming, quickly seamless browsing, and manager's overall situation is allowed to grasp the static letter of engineering equipment
Breath and use state information, while being able to achieve based on BIM model the electronic management of engineering equipment archives.
2, the interaction design based on BIM model and on-site supervision realizes real-time display, the engineering of engineering equipment monitoring state
The Three dimensions control of equipment and the roomage response of engineering equipment breakdown maintenance, keep equipment management orderly feasible, reach intelligent high
The security monitoring management of effect.
Detailed description of the invention
Fig. 1 is a kind of road and bridge engineering equipment safety monitoring method flow diagram based on BIM+GIS modeling of the present invention.
Specific embodiment
The invention will be further described with embodiment with reference to the accompanying drawing.It should be noted that specific reality of the invention
It applies example and is intended merely to the clearer description technique scheme of energy, and cannot function as a kind of limitation of the scope of the present invention.
Referring to Fig. 1, a kind of road and bridge engineering equipment safety monitoring system based on BIM+GIS modeling, for being set to engineering
Standby various aspects situation changes Real-time Monitor Management, which includes BIM server, GIS-Geographic Information System, engineering equipment
Management system and road and bridge engineering construction information manage platform;
BIM server obtains the structural information of engineering equipment, establishes multiple visual engineering equipments according to structural information
BIM model, wherein the corresponding project of each engineering equipment;
GIS-Geographic Information System is connect with BIM server, for each item setup monitoring scheme, facility information and measuring point
Information;The Geographic mapping that project is realized using GIS technology, BIM model data is parsed, is converted, light-weight technologg
And in integrated importing GIS-Geographic Information System, and it is transferred to road and bridge engineering construction information management platform and is shown;
Engineering equipment management system and the telecommunication of GIS GIS-Geographic Information System, at engineering equipment front-end collection scene
Data information, using the foundation as Dynamic Model;
Road and bridge engineering construction information management platform is connected with institute's engineering equipment management system, currently used for the project of checking
Situation, breakdown maintenance situation, the curve graph of monitoring and monitoring report messages, to carry out Distant supervision and control to engineering equipment.
The present invention is suitable for the project of all engineering constructions, and in conjunction with BIM+GIS technology, all road and bridge journey equipment are carried out
Unified monitoring management is realized all engineering equipment map readings in pipe project, three-dimensional visualization, real-time monitoring, early warning, is made
With functions such as maintenance electronic record, controls, the management of engineering equipment is moved to screen end.Wherein, engineering project BIM model realization
The three-dimensional visualization of engineering project;GIS-Geographic Information System realizes the map reading of all engineerings;Engineering equipment management system
There is the real time monitoring video of equipment, has the function of data storage, transmission, analysis and early warning in time.The present invention is integrated in road and bridge
Engineering construction information management platform can be managed at any time by the platform, monitor all engineering equipments, greatly facilitate management,
It improves work efficiency, reduces engineering equipment and the risk of safety accident occur.
In the present embodiment, believe for the ease of observing the behaviour in service of field engineering equipment and obtaining about the dynamic of engineering equipment
Breath, convenient for the determination of fault diagnosis and responsible person concerned, engineering equipment management system includes video monitoring module, breakdown maintenance
Logging modle and personal management module, wherein
Video monitoring module detects anomalous event, event automatically for monitoring in real time to each project
Information reporting, event record;
Breakdown maintenance logging modle is for storing and managing the Plant maintenance plan information of each project, equipment transition information
And equipment fault and inspection history information, and above- mentioned information are provided and are increased, are deleted, modification, inquiry and function of statistic analysis;
Personal management module is for storing the corresponding engineering equipment management owner information of failure.
The present invention also provides a kind of road and bridge engineering equipment safety monitoring method based on BIM+GIS modeling, this method includes
Following steps:
S1, BIM model is established
BIM server obtains the structural information of engineering equipment, establishes visual engineering equipment BIM mould according to structural information
Type provides model support for the integrated of three-dimensional visualization engineering construction project map based on GIS technology;
S2, BIM model is imported into GIS-Geographic Information System
BIM model data is parsed, is converted, in light-weight technologg and integrated importing GIS-Geographic Information System, and is transmitted
It is shown to road and bridge engineering construction information management platform, realizes that the importing of scene data element and dynamic update;
S3, engineering equipment management system is established
Video monitoring module, breakdown maintenance logging modle and personal management module are docked, spatial data is integrated
Resource forms engineering equipment management system, and engineering equipment management system user's logon rights is arranged, and each user account is arranged and exists
Access the authority information of engineering equipment management system;
S4, road and bridge engineering construction information management platform is established
The road and bridge engineering construction information based on BIM and GIS is established according to the B/S network architecture and manages platform, by engineering equipment
Management system imports in road and bridge engineering construction information management platform, carries out space by the mutual straw line relationship of BIM and GIS data
Layout configuration, while showing BIM model, GIS model and engineering equipment management system information, realize the BIM of multiple engineering equipments
Displaying, operation and the data management of model, and generate monitoring report messages;
S5, security monitoring is carried out
It logs in road and bridge engineering construction information and manages platform, transfer current engineering equipment service condition, breakdown maintenance situation, prison
The curve graph and monitoring report messages of survey, issue instruction to GIS-Geographic Information System and engineering equipment management system, when monitoring report
In safety coefficient when except the safety value that empowerment management person is arranged, road and bridge engineering construction information manages platform to the personnel
Management module sends alarm signal.
Further, in step S2, BIM model data is parsed, is converted, light-weight technologg specifically includes following mistake
Journey:
(1) the BIM model format established by the BIM software of different series is not identical, it is difficult to intercommunication is realized, by mark
The BIM model that BIM software is established is switched to IFC formatted file, then extracts the several of model by IFC resolver by quasi-ization processing
What information;
IFC formatted file refers to the model data file using IFC standard;IFC(Industry Foundation
Classes data model, IFC) standard when a set of opening data format unrelated with BIM software platform, it is an opportunity
The data model of Target-oriented thought, using EXPRESS language description architectural engineering information, EXPRESS is a kind of product data
Standardized data language;
(2) model geometric information is imported into professional Web page image lightweight engine, to the invalid and nuisance parameter in model
Simplified, compact model size regenerates physical model;
(3) the surrounding geographical environmental information to physical model addition construction area, the relevant rudimentary static state of engineering equipment letter
Information is ceased, project site layout project model is generated.
Engineering equipment includes hoisting machinery, elevator, electronic box, bull-dozer and excavator etc., the correlation of each engineering equipment
Basic static information include device coding, title, specifications and models, technical parameter, manufacturer, supplier, using time, valence
Value, spare parts and components, consumptive material, drawing etc..
In the present embodiment, in step S1, the foundation of BIM model include using AutoDesk company, Bentley company,
The BIM software of Dassault company manually models.
For specification platform management, working efficiency is improved, each side that takes part in building needs that road and bridge work could be logged in intra vires
Journey construction information management platform checks engineering information, and therefore, in the step S4, empowerment management person logs in road and bridge engineering construction letter
Breath management platform method particularly includes: firstly, inputting user login information in road and bridge engineering construction information management platform, and test
Demonstrate,prove the log-on message, wherein the user login information includes user account;If the log-on message is proved to be successful, institute
Road and bridge engineering construction information management platform user account according to acquired in log-on message is stated in engineering equipment management system
Authority information, and the authority information is sent to the engineering equipment management system;Finally, the engineering equipment management system
Allow the user account to log on to road and bridge engineering construction information management platform, and opens the institute received to the user account
State the corresponding operating right of authority information.
In step S4, personal management module is received after alarm signal with telephone call, center alarm and/or SMS alarm
Mode make corresponding alarm reaction, can timely and effectively notify responsible person concerned, reduce the wealth generated by alert
Production and personal injury.
A kind of road and bridge engineering equipment safety monitoring method based on BIM+GIS modeling of the present invention facilitates field engineering equipment
Management.The three-dimensional visualization figure of engineering project is generated using GIS and BIM technology, and imports road and bridge engineering construction information pipe
In platform;According to actual use situation, typing is carried out (to existing electricity to the use of all engineering equipments, breakdown maintenance situation
Subrecord import), and import in road and bridge engineering construction information management platform;Simultaneously by the real-time monitoring system of equipment
Enter into road and bridge engineering construction information management platform, device context situation can be understood in real time in platform;User is in road and bridge work
Journey construction information manages platform feature area and selects engineering management, clicks to enter corresponding work in the engineering three-dimensional visualization picture of GIS
Journey, selects the engineering equipment that need to be checked, the engineering equipment chosen will appear the real time monitoring picture of the nearest equipment, may be selected to look into
It sees the curve graph of service condition, breakdown maintenance situation and monitoring, generating device also may be selected and monitor report, checked for manager.
System generates detection report and data, if the safety coefficient in report is initial in manager according to the monitoring record of engineering equipment
The external system of setting value can automatically select alarm.
Above description is the detailed description for the present invention preferably possible embodiments, but embodiment is not limited to this hair
Bright patent claim, it is all the present invention suggested by technical spirit under completed same changes or modifications change, should all belong to
In the covered the scope of the patents of the present invention.
Claims (7)
1. a kind of road and bridge engineering equipment safety monitoring system based on BIM+GIS modeling, for the various aspects feelings to engineering equipment
Condition changes Real-time Monitor Management, which is characterized in that including BIM server, GIS-Geographic Information System, engineering equipment management system and road
Bridge engineering construction information management platform;
The BIM server obtains the structural information of engineering equipment, establishes multiple visual engineerings according to the structural information
Equipment BIM model, wherein the corresponding project of each engineering equipment;
The GIS-Geographic Information System is connect with the BIM server, for each item setup monitoring scheme, facility information and
Measuring point information;The Geographic mapping that project is realized using GIS technology, BIM model data is parsed, is converted, lightweight
It handles and integrates and import in GIS-Geographic Information System, and be transferred to road and bridge engineering construction information management platform and shown;
The engineering equipment management system and the telecommunication of GIS GIS-Geographic Information System, at engineering equipment front-end collection scene
Data information, using the foundation as Dynamic Model;
The road and bridge engineering construction information management platform is connected with institute's engineering equipment management system, currently used for the project of checking
Situation, breakdown maintenance situation, the curve graph of monitoring and monitoring report messages, to carry out Distant supervision and control to engineering equipment.
2. a kind of road and bridge engineering equipment safety monitoring system based on BIM+GIS modeling according to claim 1, feature
Be: the engineering equipment management system includes video monitoring module, breakdown maintenance logging modle and personal management module,
In,
The video monitoring module detects anomalous event, event automatically for monitoring in real time to each project
Information reporting, event record;
The breakdown maintenance logging modle is for storing and managing the Plant maintenance plan information of each project, equipment transition information
And equipment fault and inspection history information, and above- mentioned information are provided and are increased, are deleted, modification, inquiry and function of statistic analysis;
The personal management module is for storing the corresponding engineering equipment management owner information of failure.
3. a kind of road and bridge engineering equipment safety monitoring method based on BIM+GIS modeling as described in claim 1-2 is any,
It is characterized in that, this method comprises the following steps:
S1, BIM model is established
BIM server obtains the structural information of engineering equipment, establishes visual engineering equipment BIM mould according to the structural information
Type provides model support for the integrated of three-dimensional visualization engineering construction project map based on GIS technology;
S2, BIM model is imported into GIS-Geographic Information System
BIM model data is parsed, is converted, in light-weight technologg and integrated importing GIS-Geographic Information System, and is transferred to road
Bridge engineering construction information management platform is shown, realizes that the importing of scene data element and dynamic update;
S3, engineering equipment management system is established
Video monitoring module, breakdown maintenance logging modle and personal management module are docked, spatial data resource is integrated,
Engineering equipment management system is formed, and engineering equipment management system user's logon rights are set, each user account is set and is being accessed
The authority information of engineering equipment management system;
S4, road and bridge engineering construction information management platform is established
The road and bridge engineering construction information based on BIM and GIS is established according to the B/S network architecture and manages platform, and engineering equipment is managed
System introducing road and bridge engineering construction information manages in platform, carries out space layout by the mutual straw line relationship of BIM and GIS data
Configuration, while showing BIM model, GIS model and engineering equipment management system information, realize the BIM model of multiple engineering equipments
Displaying, operation and data management, and generate monitoring report messages;
S5, security monitoring is carried out
Log in road and bridge engineering construction information manage platform, transfer current engineering equipment service condition, breakdown maintenance situation, monitoring
Curve graph and monitoring report messages, issue instruction to GIS-Geographic Information System and engineering equipment management system, when in monitoring report
For safety coefficient when except the safety value that empowerment management person is arranged, road and bridge engineering construction information manages platform to the personal management
Module sends alarm signal.
4. a kind of road and bridge engineering equipment safety monitoring method based on BIM+GIS modeling according to claim 3, feature
It is, in the step S2, BIM model data is parsed, is converted, light-weight technologg specifically includes following procedure:
(1) the BIM model that BIM software is established is switched into IFC formatted file, then extracts the geometry of model by IFC resolver
Information;
(2) model geometric information is imported into professional Web page image lightweight engine, the invalid and nuisance parameter in model is carried out
Simplify, compact model size regenerates physical model;
(3) the surrounding geographical environmental information of construction area, the relevant rudimentary static information letter of engineering equipment are added to physical model
Breath generates project site layout project model.
5. a kind of road and bridge engineering equipment safety monitoring method based on BIM+GIS modeling according to claim 3, feature
It is, in the step S1, the foundation of BIM model includes using AutoDesk company, Bentley company, Dassault company
BIM software manually model.
6. a kind of road and bridge engineering equipment safety monitoring method based on BIM+GIS modeling according to claim 3, feature
It is, in the step S5, in the step S4, logs in road and bridge engineering construction information management platform method particularly includes: firstly,
User login information is inputted in road and bridge engineering construction information management platform, and verifies the log-on message, wherein the user
Log-on message includes user account;If the log-on message is proved to be successful, the road and bridge engineering construction information manages platform root
It is sent according to authority information of the user account in engineering equipment management system acquired in log-on message, and by the authority information
To the engineering equipment management system;Finally, the engineering equipment management system allows the user account to log on to road and bridge work
Journey construction information manages platform, and the corresponding operating right of the authority information received is opened to the user account.
7. a kind of road and bridge engineering equipment safety monitoring method based on BIM+GIS modeling according to claim 3, feature
It is, in the step S5, the personal management module is received after alarm signal with telephone call, center alarm and/or short
The mode of letter alarm makes corresponding alarm reaction.
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