1. The utility model provides a water and electricity engineering intelligent construction management system which characterized in that includes:

the big data center is based on a Building Information Model (BIM), faces to the water conservancy and hydropower engineering, and establishes the big data center of the engineering by defining special objects, codes and attributes of the hydropower engineering;

the data acquisition module is used for acquiring data of a hydropower engineering construction site;

the data storage module is used for storing the acquired data;

the data analysis module is used for analyzing the collected and stored data;

and the cooperative management module is used for performing cooperative management on various items of hydropower engineering construction.

2. The intelligent construction management system for hydropower engineering according to claim 1, wherein the data analysis module further comprises simulation and safety assessment for comprehensive analysis and evaluation of engineering progress, quality and safety.

3. The intelligent construction management system for hydropower engineering according to claim 1, wherein the cooperative management module further comprises engineering cost management, construction site management, construction scheme management, engineering progress management, engineering safety management, engineering quality management and overall progress management, and is used for classifying and cooperatively managing various items of hydropower engineering.

4. The intelligent construction management system for hydropower engineering according to claim 3, wherein the engineering cost management is used for recording each list comprehensive unit price into the system, associating the construction cost information with a big data center and rapidly counting the direct engineering cost of each stage of the project by a cost management department.

5. The intelligent construction management system for hydropower engineering according to claim 1, wherein the construction site management can simulate the arrangement of the whole construction site according to the conditions of the construction site and surrounding roads so as to reasonably arrange the construction area, the material yard, the position of an access door of a construction vehicle and the like, and scientific three-dimensional planning is carried out on the construction site through a BIM model.

6. The intelligent construction management system for hydropower engineering according to claim 1, wherein the construction plan management utilizes a construction organization plan in the system to plan for later earth excavation for knowing the feasibility of the plan in advance.

7. The intelligent construction management system for hydropower engineering according to claim 1, wherein the engineering schedule management provides planned schedule for management according to the current site, the on-site construction schedule is subjected to visual simulation, the actual schedule is combined with the process, and the actual schedule and the planned schedule are visually compared through a model.

8. The intelligent construction management system for hydropower engineering according to claim 1, wherein the engineering safety management helps the construction method to perform a safety management process in a standard manner through the system, so that safety documents can be organized and filed scientifically in time, and are provided for leaders and engineering personnel at all levels to inquire at any time through a network, and the engineering safety can be monitored more effectively.

9. The intelligent construction management system for hydropower engineering according to claim 1, wherein the engineering quality management is implemented by a system help implementing party to standardize quality management in the construction process of hydropower engineering, so that quality documents can be organized and filed scientifically in time, and are provided for leaders and engineering personnel at all levels to inquire at any time through a network, thereby monitoring the engineering quality more effectively.

10. The intelligent construction management system for hydropower engineering according to claim 1, wherein the overall schedule management comprehensively meets the requirements of schedule management of multilevel and multi-angle hydropower engineering projects through the functions of the construction engineering management system, and meets the functions of cost, quality, safety, resource allocation and optimized integrated management associated with the engineering schedule.

Background

The hydraulic and hydroelectric engineering comprises large and medium hydraulic and hydroelectric hubs, river treatment engineering, water ecological engineering and the like, is the basic industry for national economy and social development, has long construction period, large investment and many cooperative departments, is greatly influenced by natural resources, terrain, geology and hydrological and meteorological conditions, provides higher requirements for the professional technology talent culture of the hydraulic and hydroelectric engineering, and deals with a new round of technological revolution and industrial change.

The large-scale hydropower engineering has the objective problems of complex environmental conditions, large engineering construction scale, long construction period, high construction difficulty, more participating units and high management risk, the traditional digital management method and means oriented to a single specialty or link cannot realize the comprehensive collection and accurate judgment of information and state of the engineering construction process, the cross-specialty information sharing and comprehensive analysis cannot be realized, the digital and intelligent construction of the whole process cannot be realized, the interference and influence of human factors exist in the construction process, so that the progress, quality and safety management of the engineering construction still faces a lot of risks, a good data information communication mode is lacked, the communication among different systems is insufficient, the cooperation is poor, the consciousness of whole-person management is basically absent, the information cannot be shared, and the management layer is seriously lacked in the information acquisition modes of construction plans, progress, benefits and the like of all projects, it is impossible to realize intelligent management in a true sense.

Therefore, it is necessary to provide an intelligent construction management system for hydropower engineering to solve the above technical problems.

Disclosure of Invention

In order to solve the technical problems, the invention provides the intelligent construction management system for the hydropower engineering, which is convenient for intelligently managing the hydropower engineering construction.

The intelligent construction management system for the hydropower engineering provided by the invention comprises:

the big data center is based on a Building Information Model (BIM), faces to the water conservancy and hydropower engineering, and establishes the big data center of the engineering by defining special objects, codes and attributes of the hydropower engineering;

the data acquisition module is used for acquiring data of a hydropower engineering construction site;

the data storage module is used for storing the acquired data;

the data analysis module is used for analyzing the collected and stored data;

and the cooperative management module is used for performing cooperative management on various items of hydropower engineering construction.

Preferably, the data analysis module further comprises simulation and safety evaluation for comprehensive analysis and evaluation of engineering process, quality and safety.

Preferably, the cooperative management module further comprises engineering cost management, construction site management, construction scheme management, engineering progress management, engineering safety management, engineering quality management and overall progress management, and is used for classifying and cooperative management of various items of the hydropower engineering.

Preferably, the engineering cost management is used for recording each list comprehensive unit price into a system, the cost information is associated with a big data center, and a cost management department rapidly counts the direct engineering cost of each stage of a project.

Preferably, the construction site management can simulate the arrangement of the whole construction site according to the conditions of the construction site and surrounding roads so as to reasonably arrange the positions of a construction area, a material yard, a construction vehicle access door and the like, and scientific three-dimensional planning is carried out on the construction site through a comprehensive site arrangement BIM model.

Preferably, the construction plan management plans the earth excavation at a later stage by using a construction organization plan in the system, so as to know the feasibility of the plan in advance.

Preferably, the project progress management provides plan progress arrangement according to the current location for management, the on-site construction progress is subjected to image simulation, the process is combined with the actual progress, and the actual progress and the plan progress are visually compared through the model.

Preferably, the engineering safety management helps a construction party to standardize the safety management process through a system, so that safety documents can be scientifically sorted and filed in time, and are provided for leaders and engineering personnel at all levels to inquire at any time through a network, and the engineering safety can be monitored more effectively.

Preferably, the engineering quality management helps an implementer to standardize quality management in the hydropower engineering construction process through a system, so that quality documents can be sorted and filed scientifically in time, and are provided for leaders and engineering personnel at all levels to inquire at any time through a network, thereby more effectively monitoring the engineering quality.

Preferably, the overall progress management comprehensively meets the requirements of multi-level and multi-angle hydropower project progress management through the functions of the construction project management system, and meets the cost, quality, safety, resource allocation and optimization integrated management functions associated with the project progress.

Compared with the related technology, the intelligent construction management system for the hydropower engineering provided by the invention has the following beneficial effects:

1. the invention establishes an engineering big data center by defining the special object, code and attribute of the hydropower engineering, can conveniently and intelligently manage the hydropower engineering construction, is used for acquiring the data of the hydropower engineering construction site through the data acquisition module, conveniently and subsequently analyzing and evaluating the data, improves the quality, efficiency and safety of the hydropower engineering construction, is used for storing and conveniently analyzing the acquired data through the data storage module, is used for analyzing the acquired stored data through the data analysis module, improves the intelligent management and the safety of the hydropower engineering construction, is used for cooperatively managing various items of the hydropower engineering construction through the cooperative management module, and solves the problems of complicated environmental conditions, large engineering construction scale, long construction period, low cost, high efficiency and safety of the hydropower engineering construction in the large-scale engineering, The traditional digital management method and means oriented to single specialty or link cannot realize comprehensive collection and accurate judgment of information and state of the engineering construction process, cannot realize cross-professional information sharing and comprehensive analysis, cannot realize digital and intelligent construction of the whole process, has interference and influence of human factors in the construction process, causes progress, quality and safety management of the engineering construction to still face a lot of risks, lacks a good data information communication mode, is insufficient in communication among major systems, has poor cooperation, basically has no consciousness of whole management, cannot share information, and has the problems that a management layer seriously lacks information acquisition modes such as construction plan, progress, benefit and the like of each project and cannot realize intelligent management in the true sense;

2. the invention can be used for recording each list of comprehensive unit price into a system by setting engineering cost management, the cost information is associated with a model, a cost management department can rapidly count the direct engineering cost of each stage of a project, in addition, the project planning cost can be intuitively and rapidly compared with the actual cost through the system, the problems existing in the cost can be found, the strategy is adjusted and the deviation is timely corrected, the whole construction site arrangement can be simulated according to the conditions of the construction site and surrounding roads by setting construction site management, so that the construction area, the material yard, the position of an access door of a construction vehicle and the like can be reasonably arranged, the construction site is scientifically three-dimensionally planned by arranging a BIM model through the comprehensive site, the three-dimensional planning comprises the arrangement of the construction area, the structure processing area, the material warehouse site material yard, the site road and the like, and the construction site conditions can be intuitively reflected, the construction land is reduced, the on-site transportation road is ensured to be smooth, the management of constructors is facilitated, the occurrence of secondary carrying and accidents is effectively avoided, the construction scheme management is set, the construction organization scheme in the system is utilized to plan the earth excavation in the later period, the feasibility of the scheme can be known in advance, the comparison and selection of multiple schemes are facilitated, the final excavation scheme is determined, the scheme of bottom-crossing excavation with teams and teams is facilitated, the working efficiency is improved, the project schedule management is set, the management is managed according to the plan schedule arrangement provided on the site, the on-site construction schedule is subjected to visual simulation, the process is combined with the actual schedule, the actual schedule and the plan schedule are visually compared through a model, the production period can be well controlled through the construction simulation, the human machine is prepared in advance, and the waste of construction period, materials and manpower can be effectively reduced, by setting engineering safety management, engineering quality management and overall progress management, the system helps a construction party to standardize the safety management process, so that safety documents can be sorted and filed scientifically in time, and are provided for leaders and engineering personnel at all levels to inquire at any time through a network, thereby more effectively monitoring the engineering safety, the system effectively helps the construction party to accumulate safety management knowledge, so that the construction party engineering safety working quality can be stably improved, further, unique advantages in the aspect of construction party engineering safety management are formed, the system helps the construction party to standardize the quality management in the hydropower engineering construction process, so that the quality documents can be sorted and filed scientifically in time, and are provided for leaders and engineering personnel to inquire at all levels through the network, thereby more effectively monitoring the engineering quality, the system effectively helps the construction party to accumulate the quality management knowledge, and the construction party engineering quality can be stably improved, and then, a unique competitive advantage in the aspect of construction side engineering quality management is formed, the function of the building engineering management system comprehensively meets the requirement of multi-level and multi-angle traffic engineering project progress management of a company, the integrated management functions of cost, quality, safety, resource allocation, optimization and the like associated with the project progress are met, and the requirement of multi-organization coordination management of the project progress is met.

Drawings

Fig. 1 is a system block diagram of a preferred embodiment of the intelligent construction management system for hydropower engineering provided by the invention;

fig. 2 is a system block diagram of the cooperation management module shown in fig. 1.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Referring to fig. 1 and fig. 2, fig. 1 is a system block diagram of a preferred embodiment of the intelligent construction management system for hydropower engineering provided by the present invention; fig. 2 is a system block diagram of the cooperation management module shown in fig. 1. The intelligent construction management system of water and electricity engineering includes:

the big data center is based on a Building Information Model (BIM), faces to the water conservancy and hydropower engineering, and establishes the big data center of the engineering by defining special objects, codes and attributes of the hydropower engineering;

the data acquisition module is used for acquiring data of a hydropower engineering construction site;

the data storage module is used for storing the acquired data;

the data analysis module is used for analyzing the collected and stored data;

and the cooperative management module is used for performing cooperative management on various items of hydropower engineering construction.

In the implementation process, as shown in fig. 1, the data analysis module further includes simulation and safety evaluation for comprehensive analysis and evaluation of engineering process, quality and safety.

It should be noted that: through defining the special object of water and electricity engineering, the code, the attribute, establish the big data center of engineering, can conveniently carry out intelligent management to water and electricity engineering construction, through the data acquisition module, be used for gathering the data of water and electricity engineering job site, conveniently carry out follow-up analysis and aassessment to the data, improve the quality of water and electricity engineering construction, efficiency and security, through the data storage module, be used for saving the data of gathering, conveniently carry out the analysis, through the data analysis module, be used for carrying out the analysis to the data of the storage of gathering, the security of intelligent management and water and electricity engineering construction has been improved, through the collaborative management module, be used for carrying out collaborative management to each item of water and electricity engineering construction.

Referring to fig. 1 and 2, the cooperative management module further includes engineering cost management, construction site management, construction scheme management, engineering progress management, engineering safety management, engineering quality management and overall progress management, and is used for performing classified cooperative management on various matters of the hydropower engineering.

Referring to fig. 2, the engineering cost management is used for inputting each list integrated unit price into a system, associating cost information with a big data center, and rapidly counting direct engineering cost of each stage of a project by a cost management department.

It should be noted that: through setting up engineering cost management, can be arranged in synthesizing unit price entry system with each manifest, cost information is correlated with the model, with the direct engineering cost of each stage of quick statistics project of cost management department, in addition, can directly perceivedly contrast this project plan cost and actual cost fast through the system, the problem that exists on the discovery cost, the adjustment strategy, in time rectify a deviation.

Referring to fig. 2, the construction site management can simulate the arrangement of the whole construction site according to the construction site and the conditions of surrounding roads, so as to reasonably arrange the construction area, the material yard, the positions of the access doors of construction vehicles and the like, and scientifically perform three-dimensional planning on the construction site through a comprehensive site arrangement BIM model.

Referring to fig. 2, the construction plan management utilizes a construction organization plan in the system to plan for later earth excavation for understanding the feasibility of the plan in advance.

Referring to fig. 2, the project schedule management provides a planned schedule for management according to the current location, performs visual simulation on the site construction schedule, combines with the actual schedule in the process, and visually compares the actual schedule with the planned schedule through a model.

It should be noted that: by setting up the construction site management, the whole construction site arrangement can be simulated according to the construction site and the surrounding road conditions, so as to reasonably arrange the construction area, the material yard, the construction vehicle access door position and the like, and by arranging the BIM model on the comprehensive site, the construction site is scientifically three-dimensionally planned, which comprises the arrangement of the construction area, the structure processing area, the material warehouse site material piling site, the site road and the like, so that the construction site conditions can be visually reflected, the construction land is reduced, the site transportation road is ensured to be smooth, the management of constructors is facilitated, the occurrence of secondary carrying and accidents is effectively avoided, the construction scheme management is set, the construction organization scheme in the system is utilized to plan the earth excavation in the later period, the feasibility of the scheme can be known in advance, the comparison and selection of multiple schemes is facilitated, the final excavation scheme is determined, and the intersection excavation scheme with teams is also facilitated, improve work efficiency, through setting up engineering progress management, manage according to the plan progress arrangement that the scene provided, carry out image simulation to the site operation progress, the in-process combines with actual progress, carries out the contrast directly perceived to actual progress and plan progress through the model, can control production cycle well through this kind of construction simulation, prepares the people machine in advance, can reduce the waste of time limit for a project, material and manpower effectively.

Referring to fig. 2, the engineering safety management helps a construction party to standardize a safety management process through a system, so that safety documents can be scientifically sorted and filed in time, and are provided for leaders and engineering personnel to inquire at any time through a network, and the engineering safety can be monitored more effectively.

Referring to fig. 2, the engineering quality management helps an implementer to standardize quality management in the construction process of the hydropower engineering through a system, so that quality documents can be organized and filed scientifically in time, and are provided for leaders and engineering personnel at all levels to inquire at any time through a network, thereby monitoring the engineering quality more effectively.

Referring to fig. 2, the overall schedule management comprehensively meets the requirements of multi-level and multi-angle hydropower project schedule management through the functions of a construction project management system, and meets the functions of cost, quality, safety, resource allocation and optimized integrated management associated with project schedule.

It should be noted that: by setting engineering safety management, engineering quality management and overall progress management, the system helps a construction party to standardize the safety management process, so that safety documents can be sorted and filed scientifically in time, and are provided for leaders and engineering personnel at all levels to inquire at any time through a network, thereby more effectively monitoring the engineering safety, the system effectively helps the construction party to accumulate safety management knowledge, so that the construction party engineering safety working quality can be stably improved, further, unique advantages in the aspect of construction party engineering safety management are formed, the system helps the construction party to standardize the quality management in the hydropower engineering construction process, so that the quality documents can be sorted and filed scientifically in time, and are provided for leaders and engineering personnel to inquire at all levels through the network, thereby more effectively monitoring the engineering quality, the system effectively helps the construction party to accumulate the quality management knowledge, and the construction party engineering quality can be stably improved, and then, a unique competitive advantage in the aspect of construction side engineering quality management is formed, the function of the building engineering management system comprehensively meets the requirement of multi-level and multi-angle traffic engineering project progress management of a company, the integrated management functions of cost, quality, safety, resource allocation, optimization and the like associated with the project progress are met, and the requirement of multi-organization coordination management of the project progress is met.

The working principle of the intelligent construction management system for the hydropower engineering provided by the invention is as follows:

the method is characterized in that a large engineering data center is established by defining special objects, codes and attributes for the hydropower engineering, the hydropower engineering construction can be intelligently managed, the data acquisition module is used for acquiring data of a hydropower engineering construction site, the data can be analyzed and evaluated subsequently, the quality, the efficiency and the safety of the hydropower engineering construction are improved, the data storage module is used for storing the acquired data and analyzing the acquired data conveniently, the data analysis module is used for analyzing the acquired stored data, the intelligent management is improved, the safety of the hydropower engineering construction is improved, the cooperative management module is used for cooperatively managing various items of the hydropower engineering construction, the engineering cost management is arranged, all lists can be recorded into a comprehensive unit price system, and the cost information is associated with a model, the direct engineering expenses of each stage of the project are rapidly counted by a cost management department, in addition, the plan cost of the project can be intuitively and rapidly compared with the actual cost through a system, the problems existing in the cost are found, the strategy is adjusted, the deviation is timely corrected, the whole construction site arrangement can be simulated according to the conditions of the construction site and surrounding roads through setting the construction site management, so that the construction area, the material yard, the access door position of a construction vehicle and the like are reasonably arranged, the scientific three-dimensional planning is carried out on the construction site through the BIM model distributed in the comprehensive site, the arrangement of the construction area, the structure processing area, the material warehouse site material yard, the site road and the like can be intuitively reflected, the construction site conditions are reduced, the site transportation road is ensured to be smooth, the management of constructors is convenient, and the occurrence of secondary transportation and accidents is effectively avoided, by setting the management of the construction scheme, the construction organization scheme in the system is utilized to plan the earth excavation in the later period, the feasibility of the scheme can be known in advance, the comparison and selection of multiple schemes are facilitated, the final excavation scheme is determined, the intersection excavation scheme with teams and teams is facilitated, the working efficiency is improved, the management of the engineering progress is set, the management is performed according to the plan progress arrangement provided on site, the visual simulation is performed on the site construction progress, the combination with the actual progress is performed in the process, the visual comparison between the actual progress and the plan progress is performed through the model, the production period can be well controlled through the construction simulation, the man-machine is prepared in advance, the waste of construction period, materials and manpower can be effectively reduced, the engineering safety management, the engineering quality management and the overall progress management are set, the system helps the construction schedule safety management process, and the safety documents can be scientifically arranged in time, Filing, and providing all levels of leaders and engineering personnel for inquiring at any time through a network, thereby more effectively monitoring engineering safety, the system simultaneously and effectively helping a constructor to accumulate safety management knowledge, promoting the construction safety working quality of the constructor to be stably improved, further forming unique advantages in the aspect of construction engineering safety management of the constructor, the system helps the constructor to standardize quality management in the construction process of hydropower engineering, enabling quality documents to be timely and scientifically arranged and filed, and providing all levels of leaders and engineering personnel for inquiring at any time through the network, thereby more effectively monitoring engineering quality, the system simultaneously and effectively helping the constructor to accumulate quality management knowledge, promoting the construction engineering quality to be stably improved, further forming unique competitive advantages in the aspect of construction engineering quality management of the constructor, and the function of the construction engineering management system comprehensively meets the requirements of multi-level, the requirements of multi-angle traffic engineering project progress management meet the integrated management functions of cost, quality, safety, resource allocation, optimization and the like associated with the project progress, and meet the requirements of multi-organization coordination management of the project progress.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.