CN110689284B - Project security risk management and control method and system - Google Patents

Abstract

The application discloses a project security risk management and control method and system, including: according to the incidence relation among the safety risk control basic data, the three-dimensional model, the engineering part and the work plan, the safety risk existing in the project site in the preset time period is determined, and the determined first early warning information of the safety risk existing in the project site in the preset time period is pushed to the construction party, the supervision party and the construction party, so that the safety risk existing in the project site is pre-controlled. In addition, according to the method, the safety risk existing in the project site at the current time is counted according to the process progress filled in real time, and the counted second early warning information of the safety risk existing in the project site at the current time is pushed to the construction party, the supervision party and the construction party, so that real-time control of the safety risk existing in the project site can be realized, and the safety production of the construction site is ensured.

Description

Project security risk management and control method and system

Technical Field

The application relates to the technical field of security management and control, in particular to a project security risk management and control method and system.

Background

The safety risk refers to the risk that safety production accidents may be caused by incomplete organization, improper management, irregular behaviors, unrealized measures and the like in the process of production operation activities. According to the main reasons for forming the production operation risks, the production operation risks are divided into management risks and operation behavior risks; the method mainly refers to the risk of safety accidents caused by the fact that key links and key nodes are out of control due to the fact that relevant leaders and managers in planning, operation organization and field implementation stages are not managed in place.

Under the existing enterprise safety management mode, technology and safety management personnel of various production enterprises with various high-risk operations on site can only carry out site risk management and control in a site inspection and spot check mode. In the conventional carpet type inspection mode of putting a considerable amount of safety management personnel deep into the site, under the condition that the supervision personnel are limited, the safety management personnel cannot go deep into each corner of the site from time to time, so that the safety supervision of key devices and key parts on the site is easy to be insufficient; in addition, the field work surface is large, and the cross work is many. The traditional method for carrying out safety supervision deep in the field has low efficiency, and can not meet the requirement of safety management under new situation. The management mode depending on spot check determines the problems of large manpower resource demand, shortage of full-time safety management personnel and the like in the construction process, so that the safety monitoring capability of a company is attenuated layer by layer, and the risk control of the whole site has a certain blind area.

Due to lack of proper safety monitoring and management, enterprise managers cannot pay attention to all major risks on the site, so that reasonable guarantee resources cannot be allocated, targeted site support and inspection cannot be carried out, and effective guidance and intervention on various types of risk work on the site cannot be further carried out.

Disclosure of Invention

The embodiment of the invention discloses a project security risk management and control method and system, which aim to solve the problems that an enterprise manager cannot pay attention to all major risks on the site due to lack of proper security monitoring and management, so that reasonable guarantee resources cannot be allocated, targeted site support and inspection cannot be carried out, and effective guidance and intervention on various types of risk work on the site cannot be carried out.

In a first aspect of the present application, a method for managing and controlling project security risks is disclosed, which includes:

acquiring security risk control basic data of a project, wherein the security risk control basic data comprise security risk information corresponding to each procedure in the project;

establishing a first incidence relation, wherein the first incidence relation is the incidence relation between the safety risk control basic data and engineering positions, and each engineering position comprises at least one working procedure;

establishing a second association relation, wherein the second association relation is the association relation between a work plan and the engineering part within a preset time period, and the work plan comprises each task item and plan construction time corresponding to each task item;

determining a project part and a process corresponding to each task item according to the second incidence relation;

determining the safety risk existing in the project site within the preset time period according to the first incidence relation and the determined project part and process corresponding to each task item;

and pushing the determined first early warning information of the safety risk existing in the project site in the preset time period to a construction party, a construction party and a supervision party.

Further, the method further comprises:

receiving a procedure progress filling operation of a constructor, and determining a current project position and a procedure progress according to the procedure progress filling operation;

according to the filled process progress and the first incidence relation, the safety risk existing in the project field at the current time is counted;

and pushing the second early warning information of the safety risk existing in the current time project field to a construction party, a construction party and a supervision party.

Further, the security risk management and control basic data further includes management and control measures corresponding to the security risk information.

Further, the method further comprises:

and generating a management and control measure corresponding to the safety risk according to the safety risk existing in the project site in the preset time period.

Further, the safety risks existing in the field of the current time project comprise the safety risks existing in the processes which are started but not completed.

Further, the method further comprises:

receiving an inspection result sent by a constructor, wherein the inspection result is generated by a first project site image and a safety risk existing in a project site at the current time;

forwarding the inspection result to a supervisor, wherein the supervisor is used for obtaining a second project site image and comparing and auditing the second project site image and the inspection result;

and receiving an audit result sent by the supervisor, wherein the audit result is generated by the inspection result and the second project site image.

Further, the method further comprises:

obtaining a three-dimensional model of the project, wherein the three-dimensional model comprises each component of the project, and a third relation exists between the three-dimensional model and the engineering part, and the third relation is as follows: the components with the same management attribute in the three-dimensional model correspond to the same engineering part;

and marking and displaying the component corresponding to the engineering part where the procedure with the safety risk on the project site in the preset time period is located in the three-dimensional model according to the third correlation and the safety risk on the project site in the preset time period.

Further, the method further comprises:

obtaining a three-dimensional model of the project, wherein the three-dimensional model comprises each component of the project, and a third relation exists between the three-dimensional model and the engineering part, and the third relation is as follows: the components with the same management attribute in the three-dimensional model correspond to the same engineering part;

and marking and displaying the component corresponding to the engineering part where the process of the statistical current time project site with the safety risk is located in the three-dimensional model according to the third correlation and the statistical safety risk existing in the current time project site.

In a second aspect of the present application, a project security risk management and control system is disclosed, comprising:

the system comprises an acquisition module, a processing module and a management module, wherein the acquisition module is used for acquiring security risk management and control basic data of a project, and the security risk management and control basic data comprise security risk information corresponding to each procedure in the project;

the system comprises a first incidence relation establishing module, a second incidence relation establishing module and a safety risk management and control module, wherein the first incidence relation establishing module is used for establishing a first incidence relation, the first incidence relation is the incidence relation between safety risk management and control basic data and engineering positions, and each engineering position comprises at least one working procedure;

the second incidence relation establishing module is used for establishing a second incidence relation, wherein the second incidence relation is the incidence relation between a work plan and the engineering part within a preset time period, and the work plan comprises each task item and plan construction time corresponding to each task item;

the first determining module is used for determining the engineering part and the working procedure corresponding to each task item according to the second incidence relation;

the second determining module is used for determining the safety risk existing in the project site within the preset time period according to the first incidence relation and the determined project part and process corresponding to each task item;

and the first pushing module is used for pushing the determined first early warning information of the safety risk existing in the project site in the preset time period to a construction party, a supervision party and a construction party.

Further, the system further comprises:

the first receiving module is used for receiving the process progress filling operation of a constructor and determining the current project position and the process progress according to the process progress filling operation;

the statistical module is used for counting the safety risks existing in the project site at the current time according to the filled process progress and the first association relation;

and the second pushing module is used for pushing the counted second early warning information of the safety risks existing in the project site at the current time to a construction party, a supervision party and a construction party.

Further, the system further comprises:

and the generating module is used for generating a management and control measure corresponding to the safety risk according to the safety risk existing in the project site in the preset time period.

Further, the system further comprises:

the second receiving module is used for receiving a patrol result sent by a constructor, wherein the patrol result is generated by the first project site image and the safety risk existing in the project site at the current time;

the forwarding module is used for forwarding the inspection result to a supervisor, and the supervisor is used for obtaining a second project site image and comparing and auditing the second project site image and the inspection result;

and the third receiving module is used for receiving the auditing result sent by the supervisor, and the auditing result is generated by the inspection result and the second project site image.

The embodiment of the application discloses a project safety risk management and control method and system, in the method, safety risks existing in a project site in a preset time period are determined, first early warning information of the safety risks existing in the project site in the preset time period is pushed to a construction party, a supervision party and a construction party, the safety risks existing in the project site are managed and controlled in advance, and a plurality of major risks in the site are achieved, so that reasonable guarantee resources can be allocated well, and targeted site support and inspection can be carried out. In addition, according to the process progress filled in real time, the method counts the safety risk existing in the project site at the current time, and pushes the second early warning information of the safety risk existing in the project site at the current time to the construction party, the supervision party and the construction party, so that the process of the safety risk existing in the project site can be managed and controlled in real time, various types of risk work on the site can be effectively guided and interfered in real time, and the safety production of the construction site is ensured.

Drawings

In order to more clearly explain the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious to those skilled in the art that other drawings can be obtained according to the drawings without any creative effort.

Fig. 1 is a schematic workflow diagram of a project security risk management and control method disclosed in an embodiment of the present application;

fig. 2 is a schematic workflow diagram of another project security risk management and control method disclosed in the embodiment of the present application;

fig. 3 is a schematic workflow diagram of another project security risk management and control method disclosed in the embodiment of the present application;

fig. 4 is a block diagram of a project security risk management and control system disclosed in an embodiment of the present application;

fig. 5 is a block diagram of a project security risk management and control system disclosed in an embodiment of the present application.

Detailed Description

In the prior art, aiming at various high-risk operations on the site, proper safety monitoring and management are lacked, and enterprise managers cannot realize the heart of all major risks on the site, so that reasonable guarantee resources cannot be allocated, targeted site support and inspection cannot be carried out, and various types of risk work on the site cannot be effectively guided and intervened.

The embodiment of the application provides a project security risk management and control method to solve the technical problem.

A project security risk management and control method, as shown in fig. 1, includes the following steps:

s101, obtaining safety risk control basic data of a project, wherein the safety risk control basic data comprise safety risk information corresponding to each procedure in the project.

The security risk management and control can comprise four stages, wherein the first stage is a project security risk assessment stage, the second stage is a project security risk pre-management and control stage, the third stage is a project security risk process management and control stage, and the fourth stage is a project security risk rechecking closed-loop stage.

In the project safety risk assessment stage, before all projects are constructed, a construction project department can make a company-level safety risk inventory according to enterprises, and the safety risks contained in the projects are dynamically assessed by combining actual management measures and schemes of the projects.

For example, the safety management personnel at the construction project department dynamically evaluate the safety risk contained in the project according to the safety risk management and control inventory issued by the group company and by combining the actual management measures and schemes of the project. Through dynamic risk assessment, the risk existing in the project can be degraded, and meanwhile, degradation treatment measures and schemes can be provided during risk degradation treatment.

In this embodiment, the security risk management and control basic data includes all data in the security risk inventory used for the security risk assessment, and also includes security risk management and control basic data corresponding to the project, and security risk information corresponding to each process in the project.

Further, the security risk management and control basic data may further include management and control measures corresponding to the security risk information.

For example: the working procedure is template installation, the safety risk corresponding to the working procedure is high falling and collapse, and the management and control measures corresponding to the high falling and collapse comprise compiling a special construction scheme; filling a safety construction operation ticket, and informing supervision before operation; before the template is installed, the modulus, specification, a supporting system and the like of the template are determined, and the template is strictly executed without change in the construction operation process, and the like.

S102, establishing a first incidence relation, wherein the first incidence relation is the incidence relation between the safety risk control basic data and the engineering parts, and each engineering part comprises at least one working procedure.

And the components with the same management attribute in the three-dimensional model correspond to the same engineering part.

The project part can be understood as a management object of the project, and the division of the management object can be freely defined and divided according to the management fineness of the project. The three-dimensional model comprises various components, such as frame beams, frame columns, structural columns, floor slabs and the like in building engineering, and the system also comprises an engineering part module, wherein the engineering part module comprises a plurality of engineering parts, the components with the same management attribute correspond to the same engineering part, and for example, all the frame beams on the same layer are divided into an engineering part A. The engineering part can be understood as a management object of the engineering, and the division of the management object is customized, such as: there may be a plurality of members per layer, there may be one member per layer or there may be a plurality of layers of one member, and the like.

The safety risk control basic data comprises safety risk information corresponding to each procedure in the project, and each engineering part comprises at least one procedure, so that the incidence relation between the safety risk control basic data and the engineering parts can be established through the procedures, and the safety risk information corresponding to each procedure in the engineering parts can be determined.

S103, establishing a second association relation, wherein the second association relation is the association relation between a work plan and the engineering part within a preset time period, and the work plan comprises each task item and the planned construction time corresponding to each task item.

The work schedule in the preset time period may include: each task item and the planned construction time corresponding to each task item in a preset time period are preset, wherein the planned construction time comprises planned starting construction time and planned finishing construction time. Wherein, the preset time quantum can be set for oneself as required, if: the preset time period is one month, one week or 20 days, which is not limited in the present application. The corresponding work plan may be a monthly work plan, a weekly work plan, or a work plan for 20 days.

Among other things, a work plan may include a plurality of task items, such as: the work plan of a certain month comprises four task items, namely (1) concrete pouring of a parapet wall of a main control building; (2) pouring concrete for 12m-17m layers of frames of 220kvGIS rooms of the main control building; (3) plastering the outer wall of 1-6 shafts of the power distribution unit building; (4) and (5) building the main control building. Each task item is associated with an engineering site, and each task item may be associated with one or more engineering sites according to the actual task content.

And S104, determining the engineering part and the working procedure corresponding to each task item according to the second association relation.

In step S103, the work plan includes at least one task item, each task item being associated with one or more project sites. Each engineering position comprises at least one process, so that after the work plan in a preset time period is associated with the engineering position, the engineering position and the process corresponding to each task item can be determined, meanwhile, the work plan also comprises planned construction time corresponding to each task item, and after the work plan is associated, each process in the engineering position can be associated with the time in the work plan.

And S105, determining the safety risk existing in the project site in the preset time period according to the first incidence relation and the determined project part and process corresponding to each task item.

The first incidence relation is the incidence relation between the safety risk control basic data and the engineering position, and according to the first incidence relation, the safety risk information corresponding to each process and the engineering position can be determined, and the engineering position and the process are associated with the task item and the planned construction time corresponding to the task item, so that the safety risk existing on the site of each task item in the preset time period can be determined, and the safety risk existing on the site of the item in the preset time period can also be determined.

In one example, a constructor compiles a monthly or weekly work plan and imports the work plan into a project safety risk management and control system, and after the system acquires the work plan, the acquired work plan is associated with a project part, and then according to the association relationship between safety risk management and control basic data and the project part, the safety risk existing on the monthly or weekly project site is automatically generated.

And S106, pushing the determined first early warning information of the safety risk existing in the project site in the preset time period to a construction party, a supervision party and a construction party.

The construction party, the supervision party and the construction party can receive the first early warning information of the safety risk existing in the field of the current time project through the mobile phone end or the PC end, and each party can make a related pre-management measure according to the received first early warning information. Further, if the security risk management and control basic data further includes management and control measures corresponding to the security risk information, the management and control measures corresponding to the security risk may be generated according to the security risk existing on the site within the preset time period.

Or, constructors of the constructor may take corresponding control measures in advance according to the received first warning information, for example, compile a specific disposal scheme of related safety risks.

In the step S102 to step S106, the project safety risk pre-control stage is understood as that the safety risk existing in the preset time period is determined by pre-analyzing according to the work plan, and the determined safety risk existing in the project site in the preset time period is pushed to the construction party, the supervision party and the construction party, so that the pre-control of the safety risk existing in the project site is realized, and several major risks in the site are realized, so that reasonable guarantee resources can be well allocated and targeted site support and inspection can be performed.

According to the project safety risk control method, firstly, safety risk control basic data of a project are obtained, wherein the safety risk control basic data comprise safety risk information corresponding to each procedure in the project, and then a first incidence relation is established, wherein the first incidence relation is the incidence relation between the safety risk control basic data and project parts, and each project part comprises at least one procedure; establishing a second association relation, wherein the second association relation is the association relation between a work plan and the engineering part within a preset time period, and the work plan comprises each task item and plan construction time corresponding to each task item; then, according to the second incidence relation, determining a project part and a process corresponding to each task item; determining the safety risk existing in the project site within the preset time period according to the first incidence relation and the determined project part and process corresponding to each task item; and finally, pushing the determined first early warning information of the safety risk existing in the project site in the preset time period to a construction party, a supervision party and a construction party.

According to the scheme disclosed by the embodiment of the application, the safety risks existing in the preset time period are determined, the first early warning information of the safety risks existing in the project site in the preset time period is pushed to the construction party, the supervision party and the construction party, the safety risks existing in the project site are pre-managed and controlled, and all major risks in the site are in the mind, so that reasonable guarantee resources can be allocated well, and targeted site support and inspection can be carried out.

Further, the project security risk management and control method provided by the embodiment of the application further includes the following steps:

obtaining a three-dimensional model of the project, wherein the three-dimensional model comprises each component of the project, and a third relation exists between the three-dimensional model and the engineering part, and the third relation is as follows: the components with the same management attribute in the three-dimensional model correspond to the same engineering part;

and marking and displaying the component corresponding to the engineering part where the working procedure with the safety risk is located in the three-dimensional model according to the third correlation and the safety risk existing in the project site in the preset time period.

The three-dimensional model comprises various components such as doors, windows, beams and the like, the system also comprises an engineering part module, the engineering part module comprises a plurality of engineering parts, wherein the components with the same management attribute correspond to the same engineering part, for example, all doors on the same layer can be divided into the same engineering part A.

A third relation exists between the three-dimensional model and the engineering part, and the third relation is as follows: the components with the same management attributes in the three-dimensional model correspond to the same engineering position, and each engineering position comprises at least one process. That is, after associating the three-dimensional model with the engineering site, each process in the engineering site is mapped to a corresponding member in the three-dimensional model, i.e., each member in the three-dimensional model is associated with a corresponding process.

And marking and displaying the component corresponding to the engineering part where the working procedure with the safety risk is located in the three-dimensional model according to the safety risk existing in the project site in a preset time period.

By introducing the three-dimensional model corresponding to the project and the incidence relation between the three-dimensional model and the engineering part, the safety risk of the project site determined in the pre-control stage can be visualized by relying on the three-dimensional model. For example, the member associated with the position with the risk can be highlighted and marked with an early warning mark in the three-dimensional model, so that the existing safety risk can be displayed more intuitively.

Further, referring to fig. 2, the project security risk management and control method provided in the embodiment of the present application further includes the following steps:

the following steps S201 to S203 are project security risk process management and control stages, which may be understood as implementing management and control on existing security risks.

S201, receiving a process progress filling operation of a constructor, and determining a current project position and a process progress according to the process progress filling operation.

The construction method comprises the steps that a constructor reports construction conditions (namely current process progress) on site in time, receives process progress filling operation of the constructor, and determines a current engineering position and process progress according to the process progress operation, wherein the current process progress may comprise completed processes, processes which are started but not completed and processes which are not started.

S202, according to the filled process progress and the first association relation, the safety risk existing in the project site at the current time is counted.

Because the management and control measures can be effectively taken under the condition that the working procedure is started but not completed, the safety risk existing in the field of the current time project is counted, and the method mainly aims at the working procedure which is started but not completed. The safety risks existing in the process project site which is already worked but not completed are counted, so that the process management and control of the safety risks existing in the project site can be realized in real time, and the safety production of the construction site is ensured.

For example, according to the process progress reported every day and the safety risk existing in each process determined according to the first association relationship, the safety risk existing in each process every day is counted, that is, the safety risk existing in the project site every day is counted, so that the corresponding safety risk management and control can be performed, and the process of the safety risk existing in the project site is managed and controlled in real time.

S203, pushing the second early warning information of the safety risk existing in the current time project field to a construction party, a supervision party and a construction party.

And the construction party, the supervision party and the construction party can receive the second early warning information of the safety risk existing in the project site at the current time through the mobile phone end or the PC end, and the construction party can patrol the safety risk existing in the project site in time after receiving the indication information.

Further, in order to determine the inspection result of the construction party, an image uploading operation of the construction party is received, wherein the uploaded image is a project site image shot by the construction party during inspection, image information included in the image corresponds to the safety risk of inspection, and the number of the uploaded images is preferably two or more.

In the embodiment, according to the process progress filled in real time, the safety risk existing in the project site at the current time is counted, and the second early warning information of the safety risk existing in the project site at the current time is pushed to the construction party, the supervision party and the construction party, so that the process of the safety risk existing in the project site can be managed and controlled in real time, various types of risk work in the site can be effectively guided and intervened in real time, and the safety production of the construction site is ensured.

Further, the project security risk management and control method provided by the embodiment of the application further includes the following steps:

obtaining a three-dimensional model of the project, wherein the three-dimensional model comprises each component of the project, and a third relation exists between the three-dimensional model and the engineering part, and the third relation is as follows: the components with the same management attribute in the three-dimensional model correspond to the same engineering part;

and marking and displaying the component corresponding to the engineering part where the working procedure with the safety risk is located in the three-dimensional model according to the third correlation and the counted safety risk existing in the current time project site.

By introducing the three-dimensional model corresponding to the project and the incidence relation between the three-dimensional model and the engineering part, the safety risk of the project site at the current time determined in the process control stage can be visually displayed by depending on the three-dimensional model. For example, the member associated with the position with the risk can be highlighted and marked with an early warning mark in the three-dimensional model, so that the existing safety risk can be displayed more intuitively.

Further, referring to fig. 3, the project security risk management and control method provided in the embodiment of the present application further includes the following steps:

s301, receiving a patrol result sent by a constructor, wherein the patrol result is generated by a first project site image and a safety risk existing in a project site at the current time.

And S302, forwarding the inspection result to a supervisor, wherein the supervisor is used for obtaining a second project site image and comparing and checking the second project site image and the inspection result.

And S303, receiving an audit result sent by the supervisor, wherein the audit result is generated by the inspection result and the second project site image.

The steps S301 to S303 are a safety risk composite closed-loop stage, and if the audit result is qualified, it indicates that the safety risk has been dealt with and no potential safety hazard exists, and further, the information of the qualified audit result can be forwarded to the construction party, the supervision party and the construction party; and if the audit result is unqualified, which indicates that the safety risk is not dealt with and potential safety hazard exists, the result information of the unqualified audit is forwarded to the constructor, and the constructor receives the message and then patrols the project site again until the audit result is qualified.

Correspondingly, referring to fig. 4, in another embodiment of the present application, a project security risk management and control system is further disclosed, including:

an obtaining module 110, configured to obtain security risk management and control basic data of a project, where the security risk management and control basic data includes security risk information corresponding to each process in the project;

a first association relationship establishing module 120, configured to establish a first association relationship, where the first association relationship is an association relationship between the safety risk management and control basic data and engineering locations, where each engineering location includes at least one process;

a second association relationship establishing module 130, configured to establish a second association relationship, where the second association relationship is an association relationship between a work plan and the engineering part within a preset time period, and the work plan includes task items and planned construction time corresponding to the task items;

a first determining module 140, configured to determine, according to the second association relationship, a project part and a process corresponding to each task item;

a second determining module 150, configured to determine, according to the first association relationship and the determined engineering location and procedure corresponding to each task item, a safety risk existing in an item field within the preset time period;

the first pushing module 160 is configured to push the determined first early warning information of the safety risk existing in the project site within the preset time period to the construction party, the supervision party, and the construction party.

Further, as shown in fig. 5, the system further includes:

the first receiving module 210 is configured to receive a procedure progress reporting operation of a constructor, and determine a current project location and a procedure progress according to the procedure progress reporting operation;

the counting module 220 is used for counting the safety risk existing in the project field at the current time according to the filled process progress and the first association relation;

and the second pushing module 230 is configured to push the counted second early warning information of the security risk existing in the project site at the current time to the construction party, the supervision party, and the construction party.

Further, the security risk management and control basic data further includes management and control measures corresponding to the security risk information.

Further, the system further comprises:

and the generating module 310 is configured to generate a management and control measure corresponding to the safety risk according to the safety risk existing in the project site within the preset time period.

Further, the system further comprises:

a second receiving module 410, configured to receive a patrol result sent by a constructor, where the patrol result is generated from a first project site image and a security risk existing in a project site at a current time;

a forwarding module 420, configured to forward the inspection result to a supervisor, where the supervisor is configured to obtain a second project site image, and compare and audit the second project site image and the inspection result;

and a third receiving module 430, configured to receive an audit result sent by the supervisor, where the audit result is generated from the inspection result and the second project site image.

Further, the system further comprises:

the obtaining submodule is used for obtaining a three-dimensional model of the project, the three-dimensional model comprises each component of the project, wherein a third relation exists between the three-dimensional model and the engineering part, and the third relation is as follows: the components with the same management attribute in the three-dimensional model correspond to the same engineering part;

and the first marking module is used for marking and displaying the component corresponding to the engineering part where the working procedure with the safety risk is located in the three-dimensional model according to the third correlation and the safety risk existing in the project site in the preset time period.

Further, the system further comprises:

the obtaining submodule is used for obtaining a three-dimensional model of the project, the three-dimensional model comprises each component of the project, wherein a third relation exists between the three-dimensional model and the engineering part, and the third relation is as follows: the components with the same management attribute in the three-dimensional model correspond to the same engineering part;

and the first marking module is used for marking and displaying the component corresponding to the engineering part where the working procedure with the safety risk is located in the three-dimensional model according to the third correlation and the safety risk existing in the current time project field.

The same and similar parts in the various embodiments in this specification may be referred to each other. In particular, for the embodiments of the system, since they are substantially similar to the method embodiments, the description is simple, and for the relevant points, reference may be made to the description of the method embodiments.

The present application has been described in detail with reference to specific embodiments and illustrative examples, but the description is not intended to limit the application. Those skilled in the art will appreciate that various equivalent substitutions, modifications or improvements may be made to the presently disclosed embodiments and implementations thereof without departing from the spirit and scope of the present disclosure, and these fall within the scope of the present disclosure. The protection scope of this application is subject to the appended claims.

In a specific implementation manner, an embodiment of the present application further provides a computer-readable storage medium, where the computer-readable storage medium may store a program, and when the program is executed, the program may include some or all of the steps in each embodiment of the project security risk management and control method provided by the present application. The storage medium may be a magnetic disk, an optical disk, a read-only memory (ROM), a Random Access Memory (RAM), or the like.

Those skilled in the art will clearly understand that the techniques in the embodiments of the present application may be implemented by way of software plus a required general hardware platform. Based on such understanding, the technical solutions in the embodiments of the present application may be essentially implemented or a part contributing to the prior art may be embodied in the form of a software product, which may be stored in a storage medium, such as a ROM/RAM, a magnetic disk, an optical disk, etc., and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method described in the embodiments or some parts of the embodiments of the present application.

The above-described embodiments of the present application do not limit the scope of the present application.

Claims (10)

1. A project security risk management and control method is characterized by comprising the following steps:

acquiring security risk control basic data of a project, wherein the security risk control basic data comprise security risk information corresponding to each procedure in the project;

establishing a first incidence relation, wherein the first incidence relation is the incidence relation between the safety risk control basic data and engineering positions, and each engineering position comprises at least one working procedure;

establishing a second association relation, wherein the second association relation is the association relation between a work plan and the engineering part within a preset time period, and the work plan comprises each task item and plan construction time corresponding to each task item;

determining the engineering position and the working procedure corresponding to each task item within a preset time period according to the second incidence relation;

determining the safety risk existing in the project site in the preset time period according to the first incidence relation and the engineering position and procedure corresponding to each task item in the determined preset time period;

and pushing the determined first early warning information of the safety risk existing in the project site in the preset time period to a construction party, a supervision party and a construction party.

2. The method of claim 1, further comprising:

receiving a procedure progress filling operation of a constructor, and determining a current project position and a procedure progress according to the procedure progress filling operation;

according to the filled process progress and the first incidence relation, the safety risk existing in the project field at the current time is counted;

and pushing the second early warning information of the safety risk existing in the current time project field to a construction party, a supervision party and a construction party.

3. The method according to claim 1, wherein the security risk management basic data further includes a management measure corresponding to the security risk information.

4. The method of claim 3, further comprising:

and generating a management and control measure corresponding to the safety risk according to the safety risk existing in the project site in the preset time period.

5. The method of claim 2, wherein the safety risk existing on the site of the current time project comprises a safety risk existing in a process that has been started but not completed.

6. The method of claim 2, further comprising:

receiving an inspection result sent by a constructor, wherein the inspection result is generated by a first project site image and a safety risk existing in a project site at the current time;

forwarding the inspection result to a supervisor, wherein the supervisor is used for obtaining a second project site image and comparing and auditing the second project site image and the inspection result;

and receiving an audit result sent by the supervisor, wherein the audit result is generated by the inspection result and the second project site image.

7. A project security risk management and control system, comprising:

the system comprises an acquisition module, a processing module and a management module, wherein the acquisition module is used for acquiring security risk management and control basic data of a project, and the security risk management and control basic data comprise security risk information corresponding to each procedure in the project;

the system comprises a first incidence relation establishing module, a second incidence relation establishing module and a safety risk management and control module, wherein the first incidence relation establishing module is used for establishing a first incidence relation, the first incidence relation is the incidence relation between safety risk management and control basic data and engineering positions, and each engineering position comprises at least one working procedure;

the second incidence relation establishing module is used for establishing a second incidence relation, wherein the second incidence relation is the incidence relation between a work plan and the engineering part within a preset time period, and the work plan comprises each task item and plan construction time corresponding to each task item;

the first determining module is used for determining the engineering position and the working procedure corresponding to each task item in a preset time period according to the second incidence relation;

the second determining module is used for determining the safety risk existing in the project site in the preset time period according to the first incidence relation and the project part and the process corresponding to each task item in the preset time period;

and the first pushing module is used for pushing the determined first early warning information of the safety risk existing in the project site in the preset time period to a construction party, a supervision party and a construction party.

8. The system of claim 7, further comprising:

the first receiving module is used for receiving the process progress filling operation of a constructor and determining the current project position and the process progress according to the process progress filling operation;

the statistical module is used for counting the safety risks existing in the project site at the current time according to the filled process progress and the first association relation;

and the second pushing module is used for pushing the counted second early warning information of the safety risks existing in the project site at the current time to a construction party, a supervision party and a construction party.

9. The system of claim 7, further comprising:

and the generating module is used for generating a management and control measure corresponding to the safety risk according to the safety risk existing in the project site in the preset time period.

10. The system of claim 8, further comprising:

the second receiving module is used for receiving a patrol result sent by a constructor, wherein the patrol result is generated by the first project site image and the safety risk existing in the project site at the current time;

the forwarding module is used for forwarding the inspection result to a supervisor, and the supervisor is used for obtaining a second project site image and comparing and auditing the second project site image and the inspection result;

and the third receiving module is used for receiving the auditing result sent by the supervisor, and the auditing result is generated by the inspection result and the second project site image.

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