CN112906248A - BIM technology-based large steel structure building construction safety management method - Google Patents

Abstract

The invention discloses a BIM technology-based construction safety management method for large-scale steel structures, which comprises six steps of steel structure deepening design, steel structure pre-assembly simulation, safety risk pre-judgment and elimination, construction scheme optimization, steel structure member industrial production, information construction process collaborative safety management and the like, wherein the BIM technology is applied to carry out advanced prediction and correction of safety problems from the design deepening stage, the BIM technology is combined with information technologies such as Internet of things, intelligent algorithm, intelligent monitoring, Internet and the like, a combination module is combined with on-site intelligent equipment, mobile equipment, construction robots, intelligent monitoring and other equipment control systems, an overall intelligent construction management platform is built, epidemic situation safety information management and control, falling risk management, steel structure hoisting safety management and other functional modules are realized, and the safety of large-scale steel structure on-site construction is managed by an informatization means, the efficiency and the quality of safety management are improved, and the safety requirement of epidemic situation is met.

Description

BIM technology-based large steel structure building construction safety management method

Technical Field

The invention relates to the technical field of building information, in particular to a BIM and artificial intelligence technology-based large steel structure building construction safety management method.

Background

With the transformation of informatization and industrialization of the building industry as a traditional industry faucet, the integration of large-scale steel structure buildings and information technology is widely concerned by all social circles. Besides the construction quality of large steel structure buildings, the construction safety is also a key problem in engineering. In traditional steel construction, often lead to the system to collapse because of the connection quality between the component on the one hand, cause construction safety accident, on the other hand is low because constructor's safety consciousness, and the safety education before the construction is difficult to reach the prediction effect, consequently causes the incident frequently, has aggravated the pressure of construction safety control task more, and the tradition lacks the safety control mode of informationization and is difficult to satisfy current safety control demand.

Along with the development of information technology, the BIM technology can be fused with multiple new technologies such as the Internet of things, the Internet, cloud computing and artificial intelligence by virtue of the characteristics of excellent visualization, synergy and informatization, and is used as a bridge for combining the safety management and the informatization means of large steel structure buildings, so that the safety and intelligent management of steel structure building construction is realized, the quality and the efficiency of safety management are effectively improved, and the influence of epidemic situations is effectively resisted.

Disclosure of Invention

The invention aims to provide a BIM and artificial intelligence technology-based large steel structure building construction safety management method, which can realize the construction scheme optimization and simulation performed by the BIM technology and the information-based construction process collaborative safety management, so that the safety management of the steel structure building construction is more efficient, and the influence of emergencies such as epidemic situations and the like is reduced.

In order to solve the technical problems, the technical scheme provided by the invention is as follows: a BIM technology-based large steel structure building construction safety management method specifically comprises the following steps:

1) deepening design of a steel structure: according to construction requirements, carrying out deepening design on a steel structure part by utilizing a BIM technology, including stress accounting and deepening of a prefabricated steel component, and after all professional models are integrated, carrying out collision inspection by utilizing the BIM technology to eliminate the collision problem with a structure and an electromechanical pipeline;

2) steel structure pre-assembly simulation: carrying out steel structure pre-assembly simulation on the basically corrected steel structure BIM model, checking errors in steel structure assembly, ensuring the safety of steel structure assembly, further modeling and deepening important complex nodes for steel structure installation, considering influence factors such as hoisting, environment and other structures, and after modeling is finished, importing simulation software to simulate the whole process, and checking installation details and rationality;

3) pre-judging and eliminating safety risks: the BIM model and the intelligent algorithm are combined, safety factors are led in, safety risks are evaluated, avoidable risks are eliminated after the evaluation is finished, optimization measures, emergency schemes and the like are made in advance for the unavoidable risks, and the accident occurrence probability and the loss are reduced;

4) optimizing a construction scheme: adding realistic conditions by means of the BIM technology, comprehensively considering factors of all aspects, respectively simulating a plurality of planned construction schemes, selecting an optimal scheme, increasing the rationality of the scheme, and optimizing and improving the defects in the scheme;

5) industrial production of steel structural members: after deepening, automatically generating a high-fineness prefabricated steel component BIM model, engineering quantity and other data, sending or importing the data to a factory, directly processing the data, reducing manpower participation, reducing human errors and ensuring the accuracy and standardization degree of component production;

6) and (3) information-based construction process collaborative safety management: the intelligent construction management system comprises a series of intelligent field construction management based on the BIM technology, and comprises epidemic situation safety information management and control, construction falling risk management, steel structure hoisting safety management, fire evacuation based on the BIM, intelligent steel structure construction safety monitoring and other contents, and is combined with information technologies such as the Internet of things, an intelligent algorithm, intelligent monitoring, the Internet and the like to build an integral intelligent construction management platform, so that each management module is formed, and field construction safety problems are managed.

As a preferable scheme, in the step 1), the deepening design needs to check the stress of the structure, add construction factors, refine the steel structure and improve the refinement degree of the steel structure.

As a preferable scheme, the problems found in the assembling process in the step 2) need to be corrected in time, and the assembling process needs to consider the influence of the complexity of the assembling process and the assembling speed on the progress and the strength after assembling at the same time, so that the overall safety is improved; the temporary supporting equipment needs to be considered in the assembling process simulation, so that the problems that the temporary supporting equipment collapses or is not designed to cause the improper assembling and the like are avoided, and the safety problem is caused.

As a preferable scheme, in the step 3), the safety risk information is summarized in combination with learning of engineering experience, literature data and the like, the safety information is linked to the BIM information model, the risk is evaluated by using an intelligent algorithm in combination with the model, and the predicted risk is solved in advance.

As a preferable scheme, in the step 4), the key installation and safety problems in the construction scheme are visually simulated, visual teaching is performed on workers, and the safety awareness of the workers is effectively improved.

Preferably, after the factory processing in the step 5) is completed, a component information table and a specific RFID tag are generated, so as to facilitate the management of the prefabricated steel component in the next stage.

As a preferred scheme, the epidemic situation safety is subjected to informatization management and control in the step 6), personnel information is registered and confirmed in modes of developing WeChat small programs and the like, personnel safety state control during the epidemic situation is guaranteed, a BIM (building information modeling) model is combined to quickly determine the working positions of personnel, the personnel intensity is monitored, the crowd is reasonably distributed and evacuated, construction manpower dependence is reduced through connection of the construction robot, intelligent equipment and the Internet of things, and personnel safety is guaranteed to be reduced after clearing.

Compared with the prior art, the invention has the advantages that: optimizing a steel structure construction scheme and simulating, pre-assembling a steel structure, and solving the collision problem of the steel structure and other members in advance; predicting the construction safety risk of the steel structure in advance by utilizing a BIM technology, and assisting the formulation of a construction scheme and an emergency scheme; the BIM model carrying a large amount of information is deepened, so that a steel structure member is conveniently processed by a factory, and the industrial standardization degree of steel structure construction is improved; build work progress safety wisdom management platform based on BIM, including functions such as safety facilities management, hoist and mount management, fire control are sparse, the visual intelligent security monitoring of steel construction multidimension, implement information-based cooperative management to steel construction site operation safety problem, improve managerial efficiency.

Drawings

FIG. 1 is a diagram of the steps of the method of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

With the combination of the attached drawings, the BIM technology-based large steel structure building construction safety management method specifically comprises the following steps:

1) deepening design of a steel structure: deepening a drawing in a design stage by using Revit according to construction requirements, carrying out stress calculation by using Ansys, designing lifting points and the like, deepening prefabricated steel components and structures, improving the refinement degree by using a BIM (building information modeling) technology, integrating professional models, carrying out collision detection by using Navisvarks, eliminating collision points and avoiding the field installation safety problem caused by design errors;

2) steel structure pre-assembly simulation: importing a Revit model into Tekla, deepening complex nodes of a steel structure, importing a BIM model completed by Tekla into a 3D MAX for steel structure pre-assembly simulation, checking whether installation details, a temporary support system and the like are reasonably designed, and reforming the problems to form a visual intersection base;

3) pre-judging and eliminating safety risks: carrying out secondary development on the BIM technology, embedding an intelligent risk prediction algorithm, inputting the sorted safety risk information and engineering condition information into a BIM model, carrying out risk evaluation, eliminating the avoidable risk in advance according to an evaluation result, and formulating an emergency scheme and an education scheme for the avoidable risk;

4) optimizing a construction scheme: according to the work carried out above, and the preview and simulation of different schemes, the safety, quality, progress and the like of each scheme are compared, the optimal scheme is selected, the scheme is optimized according to the simulation result, and the rationality of the construction scheme is ensured. The key installation and safety problems in the construction scheme are visually simulated, visual teaching is carried out on workers, and the safety consciousness of the workers is effectively improved;

5) industrial production of steel structural members: the data of the blanking list, the model and the like derived from the BIM model are directly imported into a factory for processing without manual work, so that the accuracy of information transmission is ensured, the production quality of the prefabricated steel component is ensured, the component information list and the RFID electronic tag are generated simultaneously with the component, and the tag is adhered to a response component when leaving a factory, so that the prefabricated steel component is conveniently controlled in the next step;

6) and (3) information-based construction process collaborative safety management: based on BIM technique and thing networking, intelligent algorithm, wisdom control, intelligent monitoring, information technology such as internet, and the work of mating the end that carries out in the deepening stage, carry out the construction of large-scale steel construction site operation wisdom management platform, the platform includes epidemic situation safety information management and control, construction falling risk management, steel construction hoist and mount safety control, modules such as intelligent safety monitoring of fire control evacuation and steel construction based on BIM, equipment such as the intelligent equipment of joint scene, mobile device, construction robot, intelligent monitoring, realize the information-based of steel construction site operation safety, intellectuality, few humanized management mode.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (7)

1. A BIM technology-based large steel structure building construction safety management method is characterized by comprising the following steps:

1) deepening design of a steel structure: according to construction requirements, carrying out deepening design on a steel structure part by utilizing a BIM technology, including stress accounting and deepening of a prefabricated steel component, and after all professional models are integrated, carrying out collision inspection by utilizing the BIM technology to eliminate the collision problem with a structure and an electromechanical pipeline;

2) steel structure pre-assembly simulation: carrying out steel structure pre-assembly simulation on the basically corrected steel structure BIM model, checking errors in steel structure assembly, ensuring the safety of steel structure assembly, further modeling and deepening important complex nodes for steel structure installation, considering influence factors such as hoisting, environment and other structures, and after modeling is finished, importing simulation software to simulate the whole process, and checking installation details and rationality;

3) pre-judging and eliminating safety risks: the BIM model and the intelligent algorithm are combined, safety factors are led in, safety risks are evaluated, avoidable risks are eliminated after the evaluation is finished, optimization measures, emergency schemes and the like are made in advance for the unavoidable risks, and the accident occurrence probability and the loss are reduced;

4) optimizing a construction scheme: adding realistic conditions by means of the BIM technology, comprehensively considering factors of all aspects, respectively simulating a plurality of planned construction schemes, selecting an optimal scheme, increasing the rationality of the scheme, and optimizing and improving the defects in the scheme;

5) industrial production of steel structural members: after deepening, automatically generating a high-fineness prefabricated steel component BIM model, engineering quantity and other data, sending or importing the data to a factory, directly processing the data, reducing manpower participation, reducing human errors and ensuring the accuracy and standardization degree of component production;

6) and (3) information-based construction process collaborative safety management: the intelligent construction management system comprises a series of intelligent field construction management based on the BIM technology, and comprises epidemic situation safety information management and control, construction falling risk management, steel structure hoisting safety management, fire evacuation based on the BIM, intelligent steel structure construction safety monitoring and other contents, and is combined with information technologies such as the Internet of things, an intelligent algorithm, intelligent monitoring, the Internet and the like to build an integral intelligent construction management platform, so that each management module is formed, and field construction safety problems are managed.

2. The BIM technology-based large steel structure building construction safety management method according to claim 1, characterized in that: in the step 1), the deepening design needs to check the stress of the structure, add construction factors, refine the steel structure and improve the refinement degree of the steel structure.

3. The BIM technology-based large steel structure building construction safety management method according to claim 1, characterized in that: in the step 2), problems found in the assembling process need to be corrected in time, and the assembling process needs to consider the influence of the complexity of the assembling process and the assembling speed on the progress and the strength after assembling at the same time, so that the overall safety is improved; the temporary supporting equipment needs to be considered in the assembling process simulation, so that the problems that the temporary supporting equipment collapses or is not designed to cause the improper assembling and the like are avoided, and the safety problem is caused.

4. The BIM technology-based large steel structure building construction safety management method according to claim 1, characterized in that: and 3) in the step 3), safety risk information is summarized in combination with the learning of engineering experience, literature data and the like, the safety information is linked into the BIM information model, the risk is evaluated by using an intelligent algorithm in combination with the model, and the predicted risk is solved in advance.

5. The BIM technology-based large steel structure building construction safety management method according to claim 1, characterized in that: and 4) performing visual simulation on key installation and safety problems in the construction scheme, performing visual teaching on workers, and effectively improving safety awareness of the workers.

6. The BIM technology-based large steel structure building construction safety management method according to claim 1, characterized in that: and 5) after the factory processing is finished in the step 5), generating a component information table and a specific RFID electronic tag so as to facilitate the management of the prefabricated steel component in the next stage.

7. The BIM technology-based large steel structure building construction safety management method according to claim 1, characterized in that: and 6) performing informatization management and control on epidemic situation safety, registering and confirming personnel information by developing a WeChat applet and other modes, controlling the personnel safety state during the epidemic situation, combining a BIM model, quickly determining the working positions of personnel, monitoring the personnel intensity, reasonably distributing and evacuating people, reducing construction manpower dependence through the connection of a construction robot, intelligent equipment and the Internet of things, and ensuring that the personnel safety is reduced after clearing.

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