CN113449953A - Assembly type building construction safety assessment method - Google Patents

Abstract

The invention belongs to the technical field of buildings, and particularly relates to an assembly type building construction safety assessment method which comprises a construction site data detection module, a video acquisition module, a geological and climate information assessment module and a construction division and risk identification module. According to the method and the device, the construction action images of workers are collected, the corresponding dynamic construction actions are generated according to the construction action images, and then the dynamic construction actions are matched with the preset standard dynamic construction actions, so that whether the current construction actions of the workers are irregular or not is judged quickly, and the hidden danger can be found quickly and conveniently in safety monitoring management to avoid accidents.

Description

Assembly type building construction safety assessment method

Technical Field

The invention relates to the technical field of building construction, in particular to an assembly type building construction safety assessment method.

Background

The prefabricated building is a building which is formed by transferring a large amount of field operation work in the traditional construction mode to a factory, processing and manufacturing building components and accessories (such as floor slabs, wall plates, stairs, balconies and the like) in the factory, transporting the components and accessories to a building construction site, and assembling and installing the components and the accessories on the site in a reliable connection mode.

Nowadays, safety receives more and more attention, but the incident still can't stop completely, especially in the scene of construction, workman's construction action and construction risk still have the action of the irregular potential safety hazard that exists, have reduced building construction safety.

Disclosure of Invention

Based on the technical problems that in the building construction site provided by the background technology, the construction action and the construction risk of workers still have irregular behaviors with potential safety hazards, the building construction safety is reduced, and the invention provides an assembly type building construction safety assessment method.

The invention provides an assembly type building construction safety assessment method, which comprises a construction site data detection module, a video acquisition module, a geological and climate information assessment module and a construction division and risk identification module, the construction site data detection module is used for detecting longitude and latitude coordinate values of a construction site, acquiring latitude coordinate values of the current building to be evaluated through data detection, calling the latitude values of the building to be evaluated and safety coefficient related parameter data of the current building to be evaluated, simultaneously calling the latitude value of the building to be evaluated, matching the grade in the latitude coordinate system, calculating the weight value of each safety coefficient related parameter data based on the grade corresponding to the current latitude, the geological and climate information evaluation module comprises a field survey evaluation object geographical, hydrological and meteorological conditions and collects construction related data of a project.

Preferably, the video capture module comprises the following operation steps:

s1: firstly, shooting the construction action of a worker by using video acquisition equipment to obtain a construction action image of the worker;

s2: uploading the obtained construction action to simulation software, and simulating the dynamic construction action of the worker according to the construction action image;

s3: comparing the simulated action with a standard dynamic construction action, and judging whether the dynamic construction action is matched with a preset standard dynamic construction action; if not, judging that the action of the worker does not accord with the standard specification of the construction action; and adding the dynamic construction action into a preset nonstandard action instance data set.

Preferably, the video acquisition module further comprises a broadcast, the video acquisition device is used for acquiring and simulating the actions of the workers, and when the actions of the workers do not accord with the standard and standard construction action, the video acquisition module can remind the workers of stopping the nonstandard actions in time through the broadcast.

Preferably, the construction division and risk identification module comprises a construction division structure, a construction risk identification structure, a risk overall planning structure, a judgment modeling distribution structure, a construction association analysis structure, a management server and an input and display structure.

Preferably, the construction risk identification structure is connected with a risk overall structure, the risk overall structure is connected with the construction association analysis structure block through the evaluation modeling distribution module, and the management server is respectively connected with the risk overall structure, the evaluation modeling distribution structure, the construction association analysis structure and the input and display structure.

Preferably, the construction dividing structure is used for dividing the construction process of the engineering project into a plurality of construction sections and dividing each construction section into a plurality of construction processes, wherein the construction sections in the engineering project are sequentially numbered according to the construction sequence, and the number is 1,2, a.

The construction risk identification structure is used for identifying various potential risk accidents in the construction process, investigating and screening the risk factors and the occurrence frequency of the accidents, listing out risk source lists in the construction process, and sending the listed risk source lists to the risk overall planning structure.

Preferably, the management server is configured to receive a safety construction risk index of the engineering project construction sent by the risk orchestration structure, divide and store the received safety construction risk index according to personnel factors, equipment factors, environmental factors and management factors, and store early warning measures corresponding to each construction risk factor occurring in the construction process of the project engineering in the management server.

Preferably, the management server receives the hierarchical distribution relationship between the construction risk factors in each construction section sent by the evaluation and modeling distribution structure, counts the proportional value of each construction risk factor according to the received hierarchical distribution relationship between the construction risk factors, receives the weight of each construction risk factor in each construction section sent by the construction association analysis structure, extracts the proportional value of each construction risk factor and the weight of each construction risk factor by the management server, and establishes the construction safety evaluation model according to the proportional value of each construction risk factor and the weight of each construction risk factor.

Preferably, the management server receives the solved construction risk factors sent by the input and display module, removes the solved construction risk factors in the hierarchical distribution relationship among the construction risk factors, sets the proportion value corresponding to the solved construction risk factors as 1, sets the unresolved construction risk factors as 0, counts the construction comprehensive safety evaluation coefficient of the project engineering, and sends the early warning measures corresponding to the unresolved construction risk factors to the input and display module; the input and display module is used for inputting the unresolved construction risk factors in the project engineering, sending the unresolved construction risk factors to the management server, receiving the construction comprehensive safety assessment coefficients of the project engineering sent by the management server and the early warning measures corresponding to the unresolved construction risk factors, and displaying the construction comprehensive safety assessment coefficients and the early warning measures.

Preferably, the overall risk assessment is carried out according to the risk assessment of the design module, and similar structural engineering safety accident situations are evaluated, the pregnancy risk environment and risk factors of the project are preliminarily analyzed by a qualitative and quantitative combined method, the possibility of occurrence of serious accidents in construction is estimated, and the overall risk level of the project is determined.

The beneficial effects of the invention are as follows:

1. according to the assembly type building construction safety assessment method, through the arrangement of the acquisition of the construction action images of workers, the corresponding dynamic construction actions are generated according to the construction action images, and then the dynamic construction actions are matched with the preset standard dynamic construction actions, so that whether the construction actions of the workers are irregular or not is judged quickly, the potential hazards can be found quickly and conveniently in safety monitoring management, and accidents are avoided.

2. According to the method for evaluating the construction safety of the fabricated building, the construction safety evaluation structure is established by arranging the management server, combining the construction risk identification structure, the risk overall structure and the evaluation modeling distribution structure, and the construction comprehensive safety evaluation coefficients in each construction process are counted by inputting construction risk factors, so that the safety of each construction risk factor in the construction process to the construction process is comprehensively evaluated, the safety in the construction process is greatly improved, and the construction process is reduced to the maximum extent.

3. According to the assembly type building construction safety assessment method, the safety of each project construction process is assessed, safety assessment is carried out on each aspect, and precautionary measures are taken for potential safety hazards, so that risks are avoided, and the safety assessment effect on building construction is improved.

The parts of the device not involved are the same as or can be implemented using prior art.

Drawings

FIG. 1 is a schematic structural diagram of a method for evaluating the construction safety of an assembly type building according to the present invention;

fig. 2 is a schematic structural diagram of a food collecting module of the fabricated building construction safety assessment method according to the present invention.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the patent.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

Referring to fig. 1-2, an assembly type building construction safety assessment method includes a construction site data detection module, a video acquisition module, a geological and climate information assessment module and a construction division and risk identification module, wherein the construction site data detection module is used for detecting longitude and latitude coordinate values of a construction site, acquiring latitude coordinate values of the current building to be evaluated through data detection, calling the latitude values of the building to be evaluated and safety coefficient related parameter data of the current building to be evaluated, meanwhile, calling the latitude value of the building to be evaluated, matching the level in a latitude coordinate system, calculating the weighted value of the safety coefficient related parameter data based on the level corresponding to the current latitude, wherein the geological and climate information evaluation module comprises a field survey module for surveying the geographical, hydrological and meteorological conditions of an evaluation object, and collecting construction related data of a project.

In the invention, the video acquisition module comprises the following operation steps:

s1: firstly, shooting the construction action of a worker by using video acquisition equipment to obtain a construction action image of the worker;

s2: uploading the obtained construction action to simulation software, and simulating the dynamic construction action of workers according to the construction action image;

s3: the simulated action is matched with the standard dynamic construction action, and whether the dynamic construction action is matched with the preset standard dynamic construction action is judged; if not, judging that the action of the worker does not accord with the construction action standard specification; and adding the dynamic construction action into a preset nonstandard action instance data set.

In the invention, the video acquisition module also comprises a broadcast, the video acquisition equipment is used for acquiring and simulating the actions of workers, and when the actions of the workers do not accord with the standard and standard construction action, the broadcast can remind the workers of stopping the nonstandard actions in time.

The construction division and risk identification module comprises a construction division structure, a construction risk identification structure, a risk overall planning structure, a judgment modeling distribution structure, a construction association analysis structure, a management server and an input and display structure.

According to the method, a construction risk identification structure is connected with a risk overall structure, the risk overall structure is connected with a construction association analysis structure block through an evaluation modeling distribution module, and a management server is respectively connected with the risk overall structure, the evaluation modeling distribution structure, the construction association analysis structure and an input and display structure.

The construction dividing structure is used for dividing the construction process of an engineering project into a plurality of construction sections and dividing each construction section into a plurality of construction processes, wherein the construction sections in the engineering project are sequentially numbered according to the construction sequence, and the number is 1,2, 1.

The construction risk identification structure is used for identifying various potential risk accidents in the construction process, investigating and screening the risk factors and the occurrence frequency of the accidents, listing the risk source list in the construction process, and sending the listed risk source list to the risk overall structure.

In the invention, the management server is used for receiving the safe construction risk indexes of the engineering project construction sent by the risk overall structure, dividing and storing the received safe construction risk indexes according to personnel factors, equipment factors, environmental factors and management factors, and early warning measures corresponding to the construction risk factors of the project engineering in the construction process are stored in the management server.

In the invention, a management server receives the hierarchical distribution relation among construction risk factors in each construction section sent by a judging and modeling distribution structure, calculates the proportion value of each construction risk factor according to the received hierarchical distribution relation among the construction risk factors, receives the weight of each construction risk factor in each construction section sent by a construction association analysis structure, extracts the proportion value of each construction risk factor and the weight of each construction risk factor by the management server, and establishes a construction safety evaluation model according to the proportion value of each construction risk factor and the weight of each construction risk factor.

In the invention, a management server receives solved construction risk factors sent by an input and display module, removes the solved construction risk factors in the hierarchical distribution relationship among the construction risk factors, sets the proportion value corresponding to the solved construction risk factors as 1, sets the unresolved construction risk factors as 0, counts the construction comprehensive safety evaluation coefficient of the project and sends the early warning measures corresponding to the unresolved construction risk factors to the input and display module; the input and display module is used for inputting the unresolved construction risk factors in the project engineering, sending the unresolved construction risk factors to the management server, receiving the construction comprehensive safety assessment coefficients of the project engineering sent by the management server and the early warning measures corresponding to the unresolved construction risk factors, and displaying the construction comprehensive safety assessment coefficients and the early warning measures.

In the invention, the overall risk evaluation is evaluated according to the risk evaluation of a design module and the safety accident situation of similar structural engineering, the pregnancy risk environment and risk factors of the project are preliminarily analyzed by a qualitative and quantitative combined method, the possibility of occurrence of serious accidents in construction is estimated, and the overall risk level of the project is determined.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. An assembly type building construction safety assessment method comprises a construction site data detection module, a video acquisition module, a geological and climate information assessment module and a construction division and risk identification module, it is characterized in that the construction site data detection module is used for detecting longitude and latitude coordinate values of a construction site, acquiring latitude coordinate values of the current building to be evaluated through data detection, calling the latitude values of the building to be evaluated and safety coefficient related parameter data of the current building to be evaluated, simultaneously calling the latitude value of the building to be evaluated, matching the grade in the latitude coordinate system, calculating the weight value of each safety coefficient related parameter data based on the grade corresponding to the current latitude, the geological and climate information evaluation module comprises a field survey evaluation object geographical, hydrological and meteorological conditions and collects construction related data of a project.

2. The assembly type building construction safety assessment method according to claim 1, wherein the video capture module comprises the following operation steps:

s1: firstly, shooting the construction action of a worker by using video acquisition equipment to obtain a construction action image of the worker;

s2: uploading the obtained construction action to simulation software, and simulating the dynamic construction action of the worker according to the construction action image;

s3: comparing the simulated action with a standard dynamic construction action, and judging whether the dynamic construction action is matched with a preset standard dynamic construction action; if not, judging that the action of the worker does not accord with the standard specification of the construction action; and adding the dynamic construction action into a preset nonstandard action instance data set.

3. The assembly type building construction safety assessment method according to claim 2, wherein the video acquisition module further comprises a broadcast, the video acquisition device is used for acquiring and simulating the actions of workers, and when the actions of the workers do not meet the construction action standard specification, the video acquisition module can remind the workers of stopping the nonstandard actions in time through the broadcast.

4. The assembly type building construction safety assessment method according to claim 1, wherein the construction division and risk identification module comprises a construction division structure, a construction risk identification structure, a risk overall structure, a judgment modeling distribution structure, a construction association analysis structure, a management server and an input and display structure.

5. The assembly type building construction safety assessment method according to claim 4, wherein the construction risk identification structure is connected with a risk orchestration structure, the risk orchestration structure is connected with the construction association analysis structure block through an evaluation modeling distribution module, and the management server is respectively connected with the risk orchestration structure, the evaluation modeling distribution structure, the construction association analysis structure and the input and display structure.

6. The assembly type building construction safety assessment method according to claim 5, wherein the construction division structure is used for dividing the construction process of the engineering project into a plurality of construction sections and dividing each construction section into a plurality of construction processes, wherein the construction sections in the engineering project are sequentially numbered according to the construction sequence, and the number is 1,2,.

The construction risk identification structure is used for identifying various potential risk accidents in the construction process, investigating and screening the risk factors and the occurrence frequency of the accidents, listing out risk source lists in the construction process, and sending the listed risk source lists to the risk overall planning structure.

7. The assembly type building construction safety assessment method according to claim 6, wherein the management server is configured to receive a safety construction risk index of the engineering project construction sent by the risk orchestration structure, divide and store the received safety construction risk index according to personnel factors, equipment factors, environmental factors and management factors, and store early warning measures corresponding to each construction risk factor of the project construction in the construction process in the management server.

8. The assembly type building construction safety assessment method according to claim 7, wherein the management server receives the hierarchical distribution relationship among the construction risk factors in each construction section sent by the evaluation modeling distribution structure, counts the proportional value of each construction risk factor according to the received hierarchical distribution relationship among the construction risk factors, receives the weight of each construction risk factor in each construction section sent by the construction association analysis structure, extracts the proportional value of each construction risk factor and the weight of each construction risk factor, and establishes the construction safety assessment model according to the proportional value of the construction risk factor and the weight of each construction risk factor.

9. The assembly type building construction safety assessment method according to claim 7, wherein the management server receives the solved construction risk factors sent by the input and display module, removes the solved construction risk factors in the hierarchical distribution relationship among the construction risk factors, sets the proportion value corresponding to the solved construction risk factors as 1, sets the unresolved construction risk factors as 0, counts the construction comprehensive safety assessment coefficients of the project engineering and sends the early warning measures corresponding to the unresolved construction risk factors to the input and display module; the input and display module is used for inputting the unresolved construction risk factors in the project engineering, sending the unresolved construction risk factors to the management server, receiving the construction comprehensive safety assessment coefficients of the project engineering sent by the management server and the early warning measures corresponding to the unresolved construction risk factors, and displaying the construction comprehensive safety assessment coefficients and the early warning measures.

10. The assembly type building construction safety assessment method according to claim 9, wherein the overall risk assessment is performed according to the risk assessment of the design module, and similar structural engineering safety accident situation, the risk environment and risk factor of the project are preliminarily analyzed by a qualitative and quantitative combined method, the possibility of occurrence of serious accidents in construction is estimated, and the overall risk level of the project is determined.

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