CN115375154A - Building construction quality safety online risk management system - Google Patents

Abstract

The invention discloses a building construction quality safety online risk management system, which relates to the technical field of construction quality safety risk management and solves the technical problems that in the prior art, the building construction quality safety risk management is low in intensity and the risk monitoring cannot be accurately carried out on a construction area; the construction equipment in the construction area is analyzed, and the risk of the construction equipment in the construction area is judged, so that the operation qualification of the construction equipment in the construction area is ensured, the safety control strength of the construction area is improved, the working efficiency of construction in the construction area is improved, and the safety of construction in the construction area is enhanced.

Description

Online risk management system of building construction quality safety

Technical Field

The invention relates to the technical field of construction quality safety risk management, in particular to a building construction quality safety online risk management system.

Background

With the development of society and the progress of construction industry, the related content and method of risk control are continuously updated and perfected, the existing construction engineering quality management system requires the whole process and all-round management and control of the whole engineering project, runs through a series of links such as engineering design, construction, completion acceptance and guarantee period and the like, emphasizes precontrol, attaches importance to longitudinal and transverse expansion, and plays an important role in ensuring the smooth implementation of the engineering project.

However, in the prior art, the construction quality safety risk management is low, and the risk monitoring can not be accurately performed on the construction area, so that the construction efficiency in the construction area can not be guaranteed, and the construction progress is influenced.

In view of the above technical drawbacks, a solution is proposed.

Disclosure of Invention

The invention aims to solve the problems and provides an online risk management system for building construction quality safety, which analyzes the real-time environment in a construction area, judges the risk of the construction environment through real-time environment analysis, ensures the normality of the environmental conditions in the construction area, improves the construction quality in the construction area, monitors the environment in the construction area in time, and is favorable for timely regulation and control when the environment is abnormal; the construction equipment in the construction area is analyzed, and the risk of the construction equipment in the construction area is judged, so that the operation qualification of the construction equipment in the construction area is ensured, the safety control strength of the construction area is improved, the working efficiency of construction in the construction area is improved, and the safety of construction in the construction area is enhanced.

The purpose of the invention can be realized by the following technical scheme:

an online risk management system for building construction quality safety comprises a management platform, wherein the management platform is in communication connection with a construction environment risk analysis unit, a construction equipment risk analysis unit and a constructor risk analysis unit;

the management platform generates a construction environment risk analysis signal and sends the construction environment risk analysis signal to the construction environment risk analysis unit, the construction environment risk analysis unit analyzes the real-time environment in the construction area after receiving the construction environment risk analysis signal, the risk existing in the construction environment is judged through real-time environment analysis, a construction environment high risk signal or a construction environment low risk signal is generated through analysis and sent to the management platform;

after receiving the construction environment low-risk signal, the management platform generates a construction equipment risk analysis signal and sends the construction equipment risk analysis signal to a construction equipment risk analysis unit, and after receiving the construction equipment risk analysis signal, the construction equipment risk analysis unit analyzes construction equipment in a construction area, judges the risk of the construction equipment in the construction area, generates a construction equipment low-risk signal or a construction equipment high-risk signal through analysis, and sends the construction equipment low-risk signal or the construction equipment high-risk signal to the management platform;

after the management platform receives the low-risk signals of the construction equipment, the risk analysis signals of the construction personnel are generated and sent to the risk analysis unit of the construction personnel, after the risk analysis unit of the construction personnel receives the risk analysis signals of the construction personnel, the risk analysis unit of the construction personnel in the construction area carries out risk analysis on the construction personnel, whether the construction risks exist in the construction personnel in the construction area is judged, high-risk signals or low-risk signals of the construction personnel are generated through analysis, and the high-risk signals or the low-risk signals of the construction personnel are sent to the management platform.

As a preferred embodiment of the present invention, the operation process of the construction environment risk analysis unit is as follows:

carrying out environmental analysis on the construction area, acquiring the floating frequency of the temperature value in the peripheral environment in the construction area and the increasing speed of the rainfall in the corresponding peripheral environment, and respectively marking the floating frequency of the temperature value in the peripheral environment in the construction area and the increasing speed of the rainfall in the corresponding peripheral environment as WFD and JYZ; acquiring a maximum wind force value in the surrounding environment in the construction area, and marking the maximum wind force value in the surrounding environment in the construction area as ZDF;

by the formula

Acquiring a construction environment risk analysis coefficient X in a construction area, wherein a1, a2 and a3 are all preset proportionality coefficients, a1 is greater than a2 and greater than a3 and greater than 0, and alpha is an error correction factor and has a value of 0.6897; and comparing the construction environment risk analysis coefficient X in the construction area with a construction environment risk analysis coefficient threshold value.

As a preferred embodiment of the present invention, if the risk analysis coefficient X of the construction environment in the construction area exceeds the risk analysis coefficient threshold of the construction environment, it is determined that the analysis of the use environment in the construction area is abnormal, a high risk signal of the construction environment is generated and sent to the management platform, and after receiving the high risk signal of the construction environment, the management platform manages and controls the construction environment in the construction area or adjusts the construction time according to the change of the construction environment;

and if the construction environment risk analysis coefficient X in the construction area does not exceed the construction environment risk analysis coefficient threshold, judging that the use environment analysis in the construction area is normal, generating a construction environment low-risk signal and sending the construction environment low-risk signal to a management platform.

As a preferred embodiment of the present invention, the operation of the construction equipment risk analysis unit is as follows:

the method comprises the steps of collecting interval duration of fault monitoring time and fault occurrence time of construction equipment in a construction area and fault maintainability elimination probability of corresponding construction equipment, and comparing the interval duration of the fault monitoring time and the fault occurrence time of the construction equipment in the construction area and the fault maintainability elimination probability of the corresponding construction equipment with an interval duration threshold and an elimination probability threshold respectively.

As a preferred embodiment of the present invention, if the interval duration between the fault monitoring time and the fault occurrence time of the construction equipment in the construction area exceeds the interval duration threshold, and the maintainable elimination probability of the fault of the corresponding construction equipment exceeds the elimination probability threshold, it is determined that the risk analysis of the construction equipment in the construction area is qualified, a low risk signal of the construction equipment is generated, and the low risk signal of the construction equipment is sent to the management platform;

and if the interval duration of the fault monitoring time and the fault occurrence time of the construction equipment in the construction area does not exceed the interval duration threshold, or the fault maintainable elimination probability of the corresponding construction equipment does not exceed the elimination probability threshold, judging that the risk analysis of the construction equipment in the construction area is unqualified, generating a high-risk signal of the construction equipment, and sending the high-risk signal of the construction equipment to a management platform.

As a preferred embodiment of the present invention, the operation of the constructor risk analysis unit is as follows:

the method comprises the steps of collecting a time difference value of the time when a constructor in a construction area is adjacent to a time when the constructor is not wearing safety equipment and the replacement frequency of the corresponding constructor at a construction position in the construction area, and comparing the time difference value of the time when the constructor in the construction area is adjacent to the time when the constructor is not wearing safety equipment and the replacement frequency of the corresponding constructor at the construction position in the construction area with a time difference threshold value and a replacement frequency threshold value respectively.

As a preferred embodiment of the invention, if the time difference value of the time when the safety equipment is not worn by the adjacent constructors in the construction area does not exceed the time difference threshold value, or the replacement frequency of the corresponding constructors at the construction positions in the construction area exceeds the replacement frequency threshold value, the risk analysis of the constructors in the construction area is determined to be unqualified, personnel high-risk signals are generated, and the personnel high-risk signals are sent to a management platform;

and if the time difference value of the time when the adjacent safety equipment is not worn by the constructor in the construction area exceeds the time difference value threshold value and the replacement frequency of the corresponding constructor at the construction position in the construction area does not exceed the replacement frequency threshold value, judging that the risk analysis of the constructor in the construction area is qualified, generating a personnel low-risk signal and sending the personnel low-risk signal to the management platform.

Compared with the prior art, the invention has the beneficial effects that:

according to the construction method, the real-time environment in the construction area is analyzed, the risk of the construction environment is judged through the real-time environment analysis, the normality of the environmental condition in the construction area is ensured, the construction quality in the construction area is improved, meanwhile, the environment in the construction area is monitored in time, and the timely regulation and control can be realized when the environment is abnormal; analyzing the construction equipment in the construction area, and judging the risk of the construction equipment in the construction area, thereby ensuring the operation qualification of the construction equipment in the construction area, improving the safety control strength of the construction area, improving the working efficiency of construction in the construction area and enhancing the safety of construction in the construction area; and risk analysis is carried out on constructors in the construction area, whether the constructors have construction risks or not is judged, the safety of the constructors in the construction area is improved, the accident occurrence risk in the construction area is reduced, and the construction stability of the construction area is ensured.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic block diagram of an online risk management system for building construction quality safety according to the present invention.

Detailed Description

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

Referring to fig. 1, an online risk management system for building construction quality safety includes a management platform, the management platform is connected with a construction environment risk analysis unit, a construction equipment risk analysis unit and a constructor risk analysis unit in a communication manner, wherein the management platform is connected with the construction environment risk analysis unit, the construction equipment risk analysis unit and the constructor risk analysis unit in a bidirectional communication manner;

the management platform generates a construction environment risk analysis signal and sends the construction environment risk analysis signal to the construction environment risk analysis unit, the construction environment risk analysis unit analyzes the real-time environment in the construction area after receiving the construction environment risk analysis signal, the risk existing in the construction environment is judged through real-time environment analysis, the normal condition of the environment in the construction area is ensured, the construction quality in the construction area is improved, meanwhile, the environment in the construction area is monitored in time, and the control can be performed in time when the environment is abnormal;

carrying out environmental analysis on the construction area, acquiring the floating frequency of the temperature value in the peripheral environment in the construction area and the increasing speed of the rainfall in the corresponding peripheral environment, and respectively marking the floating frequency of the temperature value in the peripheral environment in the construction area and the increasing speed of the rainfall in the corresponding peripheral environment as WFD and JYZ; acquiring the maximum wind power value in the surrounding environment in the construction area, and marking the maximum wind power value in the surrounding environment in the construction area as ZDF;

by the formula

Acquiring a construction environment risk analysis coefficient X in a construction area, wherein a1, a2 and a3 are preset proportionality coefficients, a1 is greater than a2 and greater than a3 and greater than 0, and alpha is an error correction factor and has a value of 0.6897;

comparing the construction environment risk analysis coefficient X in the construction area with a construction environment risk analysis coefficient threshold value:

if the construction environment risk analysis coefficient X in the construction area exceeds a construction environment risk analysis coefficient threshold value, judging that the use environment analysis in the construction area is abnormal, generating a construction environment high risk signal and sending the construction environment high risk signal to a management platform, and after receiving the construction environment high risk signal, the management platform controls the construction environment in the construction area or adjusts the construction time according to the construction environment change;

if the construction environment risk analysis coefficient X in the construction area does not exceed the construction environment risk analysis coefficient threshold, judging that the use environment in the construction area is normally analyzed, generating a construction environment low-risk signal and sending the construction environment low-risk signal to a management platform;

after receiving the low-risk signal of the construction environment, the management platform generates a construction equipment risk analysis signal and sends the construction equipment risk analysis signal to the construction equipment risk analysis unit, and after receiving the construction equipment risk analysis signal, the construction equipment risk analysis unit analyzes the construction equipment in the construction area and judges the risk of the construction equipment in the construction area, so that the operation qualification of the construction equipment in the construction area is ensured, the safety control strength of the construction area is improved, the working efficiency of construction in the construction area is improved, and the safety of construction in the construction area is enhanced;

acquiring the interval duration of the fault monitoring time and the fault occurrence time of the construction equipment in the construction area and the fault maintainable elimination probability of the corresponding construction equipment, and comparing the interval duration of the fault monitoring time and the fault occurrence time of the construction equipment in the construction area and the fault maintainable elimination probability of the corresponding construction equipment with an interval duration threshold and an elimination probability threshold respectively:

if the interval duration of the fault monitoring time and the fault occurrence time of the construction equipment in the construction area exceeds an interval duration threshold value and the fault maintainable elimination probability of the corresponding construction equipment exceeds an elimination probability threshold value, judging that the risk analysis of the construction equipment in the construction area is qualified, generating a low-risk signal of the construction equipment and sending the low-risk signal of the construction equipment to a management platform;

if the interval duration of the fault monitoring time and the fault occurrence time of the construction equipment in the construction area does not exceed the interval duration threshold, or the fault maintainable elimination probability of the corresponding construction equipment does not exceed the elimination probability threshold, judging that the risk analysis of the construction equipment in the construction area is unqualified, generating a high-risk signal of the construction equipment and sending the high-risk signal of the construction equipment to a management platform, and after receiving the high-risk signal of the construction equipment, the management platform carries out rectification on the fault detection of the construction equipment in the construction area;

after receiving the low-risk signal of the construction equipment, the management platform generates a constructor risk analysis signal and sends the constructor risk analysis signal to the constructor risk analysis unit, and after receiving the constructor risk analysis signal, the constructor risk analysis unit carries out risk analysis on constructors in the construction area to judge whether the constructors in the construction area have construction risks or not, so that the safety of the constructors in the construction area is improved, the accident occurrence risk in the construction area is reduced, and the construction stability of the construction area is ensured;

the time difference that the adjacent security device of not wearing of constructor constantly in construction area and corresponding constructor change the frequency in construction area position is gathered to the constructor in construction area to with the adjacent time difference who does not wear the security device constantly of constructor in construction area and correspond constructor construction area in construction area change the frequency and compare with time difference threshold value and change frequency threshold value respectively:

if the time difference value of the time when the constructor in the construction area is adjacent to the time when the safety equipment is not worn does not exceed the time difference value threshold value, or the replacement frequency of the corresponding constructor at the construction position in the construction area exceeds the replacement frequency threshold value, judging that the risk analysis of the constructor in the construction area is unqualified, generating a high-risk signal of the constructor and sending the high-risk signal of the constructor to a management platform, and after receiving the high-risk signal of the constructor, performing construction completion on the corresponding constructor by the management platform;

and if the time difference value of the time when the constructors in the construction area are adjacent to the time when the safety equipment is not worn exceeds the time difference value threshold value and the replacement frequency of the corresponding constructors at the construction positions in the construction area does not exceed the replacement frequency threshold value, judging that the risk analysis of the constructors in the construction area is qualified, generating personnel low-risk signals and sending the personnel low-risk signals to the management platform.

The formulas are obtained by acquiring a large amount of data and performing software simulation, and the coefficients in the formulas are set by the technicians in the field according to actual conditions;

when the system is used, after a construction environment risk analysis signal is received by a construction environment risk analysis unit, a real-time environment in a construction area is analyzed, risks existing in the construction environment are judged through real-time environment analysis, a construction environment high-risk signal or a construction environment low-risk signal is generated through analysis and sent to a management platform; after receiving the construction equipment risk analysis signal, the construction equipment risk analysis unit analyzes the construction equipment in the construction area, judges the risk of the construction equipment in the construction area, generates a construction equipment low risk signal or a construction equipment high risk signal through analysis, and sends the construction equipment low risk signal or the construction equipment high risk signal to the management platform; after receiving the constructor risk analysis signal through the constructor risk analysis unit, carrying out risk analysis on constructors in the construction area, judging whether the constructors in the construction area have construction risks, generating a personnel high-risk signal or a personnel low-risk signal through analysis, and sending the personnel high-risk signal or the personnel low-risk signal to the management platform.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (7)

1. The building construction quality safety online risk management system is characterized by comprising a management platform, wherein the management platform is in communication connection with a construction environment risk analysis unit, a construction equipment risk analysis unit and a constructor risk analysis unit;

the management platform generates a construction environment risk analysis signal and sends the construction environment risk analysis signal to the construction environment risk analysis unit, the construction environment risk analysis unit analyzes the real-time environment in the construction area after receiving the construction environment risk analysis signal, judges the risk of the construction environment through real-time environment analysis, generates a construction environment high risk signal or a construction environment low risk signal through analysis, and sends the construction environment high risk signal or the construction environment low risk signal to the management platform;

after receiving the construction environment low-risk signal, the management platform generates a construction equipment risk analysis signal and sends the construction equipment risk analysis signal to a construction equipment risk analysis unit, and after receiving the construction equipment risk analysis signal, the construction equipment risk analysis unit analyzes construction equipment in a construction area, judges the risk of the construction equipment in the construction area, generates a construction equipment low-risk signal or a construction equipment high-risk signal through analysis, and sends the construction equipment low-risk signal or the construction equipment high-risk signal to the management platform;

after the management platform receives the low-risk signals of the construction equipment, the risk analysis signals of the construction personnel are generated and sent to the risk analysis unit of the construction personnel, after the risk analysis unit of the construction personnel receives the risk analysis signals of the construction personnel, the risk analysis unit of the construction personnel in the construction area carries out risk analysis on the construction personnel, whether the construction risks exist in the construction personnel in the construction area is judged, high-risk signals or low-risk signals of the construction personnel are generated through analysis, and the high-risk signals or the low-risk signals of the construction personnel are sent to the management platform.

2. The building construction quality safety online risk management system according to claim 1, wherein the operation process of the construction environment risk analysis unit is as follows:

carrying out environmental analysis on the construction area, acquiring the floating frequency of the temperature value in the peripheral environment in the construction area and the increasing speed of the rainfall in the corresponding peripheral environment, and respectively marking the floating frequency of the temperature value in the peripheral environment in the construction area and the increasing speed of the rainfall in the corresponding peripheral environment as WFD and JYZ; acquiring the maximum wind power value in the surrounding environment in the construction area, and marking the maximum wind power value in the surrounding environment in the construction area as ZDF;

by the formula

Acquiring a construction environment risk analysis coefficient X in a construction area, wherein a1, a2 and a3 are all preset proportionality coefficients, a1 is greater than a2 and greater than a3 and greater than 0, and alpha is an error correction factor and has a value of 0.6897; and comparing the construction environment risk analysis coefficient X in the construction area with a construction environment risk analysis coefficient threshold value.

3. The on-line risk management system for building construction quality safety according to claim 2, characterized in that if a construction environment risk analysis coefficient X in a construction area exceeds a construction environment risk analysis coefficient threshold, it is determined that the use environment analysis in the construction area is abnormal, a construction environment high-risk signal is generated and sent to the management platform, and after receiving the construction environment high-risk signal, the management platform controls the construction environment in the construction area or adjusts the construction time according to the construction environment change;

and if the construction environment risk analysis coefficient X in the construction area does not exceed the construction environment risk analysis coefficient threshold, judging that the use environment analysis in the construction area is normal, generating a construction environment low-risk signal and sending the construction environment low-risk signal to a management platform.

4. The on-line risk management system for building construction quality safety according to claim 1, wherein the operation process of the construction equipment risk analysis unit is as follows:

the method comprises the steps of collecting interval duration of fault monitoring time and fault occurrence time of construction equipment in a construction area and fault maintainability elimination probability of corresponding construction equipment, and comparing the interval duration of the fault monitoring time and the fault occurrence time of the construction equipment in the construction area and the fault maintainability elimination probability of the corresponding construction equipment with an interval duration threshold and an elimination probability threshold respectively.

5. The on-line risk management system for the building construction quality safety according to claim 4, characterized in that if the interval duration between the fault monitoring time and the fault occurrence time of the construction equipment in the construction area exceeds the interval duration threshold and the maintainable elimination probability of the fault of the corresponding construction equipment exceeds the elimination probability threshold, the risk analysis of the construction equipment in the construction area is judged to be qualified, a low-risk signal of the construction equipment is generated and sent to the management platform;

and if the interval duration of the fault monitoring time and the fault occurrence time of the construction equipment in the construction area does not exceed the interval duration threshold, or the fault maintainable elimination probability of the corresponding construction equipment does not exceed the elimination probability threshold, judging that the risk analysis of the construction equipment in the construction area is unqualified, generating a high-risk signal of the construction equipment, and sending the high-risk signal of the construction equipment to a management platform.

6. The on-line risk management system for building construction quality safety according to claim 1, characterized in that the operation process of the constructor risk analysis unit is as follows:

the method comprises the steps of collecting a time difference value of a moment when a constructor in a construction area does not wear a safety device and a construction position replacement frequency of a corresponding constructor in the construction area, and comparing the time difference value of the moment when the constructor in the construction area does not wear the safety device and the construction position replacement frequency of the corresponding constructor in the construction area with a time difference threshold and a replacement frequency threshold respectively.

7. The on-line risk management system for building construction quality safety according to claim 6, wherein if the time difference value of the time when the constructors in the construction area are adjacent to the time when the safety equipment is not worn does not exceed the time difference value threshold value, or the replacement frequency of the corresponding constructors at the construction position in the construction area exceeds the replacement frequency threshold value, the risk analysis of the constructors in the construction area is judged to be unqualified, a high-risk signal of the constructors is generated, and the high-risk signal of the constructors is sent to the management platform;

and if the time difference value of the time when the constructors in the construction area are adjacent to the time when the safety equipment is not worn exceeds the time difference value threshold value and the replacement frequency of the corresponding constructors at the construction positions in the construction area does not exceed the replacement frequency threshold value, judging that the risk analysis of the constructors in the construction area is qualified, generating personnel low-risk signals and sending the personnel low-risk signals to the management platform.

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