CN113780803A - Dangerous and large project full-process management method based on project management and control platform - Google Patents

Abstract

The invention discloses a dangerous and large engineering full-process management method based on an engineering management and control platform, which is characterized in that the whole process supervision on a dangerous and large engineering line is realized through the engineering management and control platform, and the technology is responsible for identifying and releasing a dangerous and large engineering list, compiling a dangerous and large engineering scheme, realizing scheme convergence and realizing safety technology convergence, synchronizing to a safety dangerous and large engineering module and checking the completion condition after the maintenance of the technical module is completed. And construction condition acceptance, operation personnel registration, critical engineering inspection, side station and acceptance record safety module online retention. And after the dangerous and large project list technical module is established, synchronizing the dangerous and large project list technical module to the safety module to form a dangerous and large project ledger. The number of dangerous large projects in the project, the number of dangerous large projects planned to be constructed in the next month and hidden danger information can be checked in real time. The monitoring quality of the critical engineering can be effectively improved, and the method has good market popularization value.

Description

Dangerous and large project full-process management method based on project management and control platform

Technical Field

The invention belongs to the field of management of construction critical engineering, and particularly relates to a critical engineering full-flow management method based on an engineering management and control platform.

Background

In engineering management, the construction of critical engineering is easy to cause the death and group injury of operating personnel or cause major adverse social influence, is a core link of the engineering management and is also a key and difficult point of the management, and the existing critical engineering management has the following problems:

1. the identification of dangerous engineering is not comprehensive;

2. the large project is not compiled timely;

3. the approval of the critical engineering scheme is not strict, and hysteresis phenomena exist individually;

4. the cross of the dangerous engineering scheme and the cross of the safety technology are in the form;

5. the field management personnel have insufficient frequency of checking dangerous and large projects and lack effectiveness of checking contents;

5. the acceptance of critical engineering is not standard, and the acceptance key points are not clear;

7. management confusion of safety files of critical engineering; most of the archive data are kept on line, and all departments of the project cannot share and inquire in time.

8. The method has the advantages that the number of participants in the management process of the critical engineering is large, and various management actions cannot be coordinated;

9. and the real-time change process of the critical engineering is lack of effective data monitoring.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the method for managing the whole process of the dangerous and large engineering based on the engineering management and control platform solves the problems in the prior art that the dangerous and large engineering is incomplete in management, incomplete in identification, untimely in scheme compilation, formal in cross-bottom and the like.

The invention adopts the following technical scheme for solving the technical problems:

the critical engineering full-process management method based on the engineering management and control platform comprises the following steps:

step 1, based on a specific project, identifying dangerous and big projects according to a bid document and the actual construction content of the project to form a registration list;

step 2, the registered dangerous and large projects need to be announced at remarkable positions on a construction site, and meanwhile, the project management and control platform can automatically generate two-dimensional codes for each dangerous and large project;

step 3, according to the list of the critical engineering, performing on-line compilation and approval on the special construction scheme of the critical engineering, and performing expert demonstration on the critical engineering exceeding a certain scale;

step 4, making a special proposal for relevant personnel;

step 5, organizing relevant personnel to check and accept construction conditions of the dangerous and large projects;

step 6, before construction, safety technology settlement is carried out on all dangerous and large engineering operators, related personnel sign and confirm, and real-name registration is carried out on the dangerous and large engineering operators every day;

step 7, standardizing management of the construction process of the dangerous and large engineering, and organizing related personnel to perform safety side station and safety production inspection and hidden danger troubleshooting on the construction process of the dangerous and large engineering in the construction process;

step 8, after the construction is finished, organizing relevant personnel of the project to check and accept the critical engineering,

and 9, establishing a management file of the dangerous and large engineering, and filing all data formed in the whole process of the dangerous and large engineering.

In the step 1, identification of dangerous large projects is carried out, and a registration list is formed in the following process:

project headquarters organization technology, projects and safety personnel combine project construction characteristics and methods on the basis of a critical project list in a bidding document to supplement and perfect the project critical project list, carry out check in a critical project database of a project management and control platform, and clarify the start time, the plan completion time and the specific responsibility of a construction unit of each critical project plan according to a project schedule total plan and construction arrangement.

And 2, after the dangerous and large project list is registered, the project is announced at a remarkable position of a construction site, meanwhile, the project management and control platform automatically generates a two-dimensional code containing basic information of the dangerous and large project, and the name, the position, the planned start time, the planned completion time, main management and control measures and a specific person of responsibility of a construction unit can be checked by scanning the two-dimensional code.

The specific implementation process of the step 3 is as follows:

the project organization technical personnel make a critical engineering special construction scheme compilation plan according to a construction project schedule, compile a plan according to the critical engineering special construction scheme, compile a special construction scheme on line before the construction of the critical engineering, and initiate scheme approval on line; and (4) performing offline expert demonstration on dangerous large projects exceeding a certain scale, and uploading the demonstration result to a project management and control platform in time for storage.

The specific process of the project proposal in the step 4 is as follows:

organizing a special project meeting under a project line, and performing real-name registration on the handed people through a critical engineering management system of an engineering management and control platform to form a list of the handed people and perform signature confirmation; meanwhile, the transaction contents can be uploaded to a system platform, and all personnel can look up the transaction contents of the special project on line for dynamic use of project management personnel.

The concrete process of checking and accepting the construction conditions in the step 5 is as follows:

before one week of dangerous and large engineering construction, personnel of related departments of project manager organization check and accept construction conditions of dangerous and large engineering, divide the work according to the check and accept task, distribute the check and accept task to the personnel of each department of project check and accept through cell-phone end APP, the personnel of checking and accepting fill in the check and accept record on line, and the system gathers the check and accept result automatically.

In step 6, the safety technology is handed over, and the specific process of the registration of the operating personnel is as follows:

all the operating personnel who participate in the transaction before the security technology of the dangerous and large engineering is handed over to the end are registered, a list of people to be handed over is automatically formed after the security technology transaction is completed, and related personnel sign and confirm; the real-name registration is realized by face recognition, scanning the two-dimensional code real-name information of each operator or manually checking the operator information in the system, a list of handed persons is automatically formed after the safety technology is handed over, and related personnel sign and confirm;

before the construction of the critical engineering every day, the project laborers count the construction workers on the day, register the workers in the system, and select the registered workers from the list which finishes the corresponding safety technology exchange.

The management and control of the dangerous large engineering process in the step 7 comprises two parts, namely:

intelligent hardware of an intelligent construction site is additionally installed, monitoring points are arranged at corresponding positions of a construction site of the dangerous and large engineering, intelligent identification devices are installed at the monitoring points, the implementation process of the dangerous and large engineering is monitored, field data are fed back to a management system of the dangerous and large engineering in real time to be displayed, and if abnormal conditions are monitored, alarm information is sent out and simultaneously a responsible person is notified to process; meanwhile, an electronic enclosure is arranged in a construction area of a dangerous and large project, so that automatic alarm prompt of personnel entering and exiting is realized;

the other station of site security personnel according to the management requirement, when danger big engineering construction, sets up other station supervisors, carries out safety construction inspection and hidden danger investigation in real time to fill in the inspection record in real time through cell-phone APP, distribute hidden danger rectification notice on line.

The specific process of the critical engineering acceptance in the step 8 is as follows:

the project chief worker sends an acceptance task through the mobile phone terminal APP, organizes all parties relevant personnel to carry out critical project acceptance, each acceptance personnel fills in acceptance information on line, and the system automatically collects acceptance records; if a company needs to participate in critical engineering acceptance, related personnel can remotely participate in video acceptance through real-time video equipment, an acceptance record table is automatically generated after the acceptance record table passes, and the acceptance record table is uploaded to an engineering management and control platform after signing is completed; after the acceptance is finished, hanging acceptance cards in the relevant areas.

The data archived in step 9 includes: the list of dangerous and large projects and the safety management measures and the examination and approval of the dangerous and large projects pass through a special construction scheme, expert demonstration data, personnel registration data, scheme and safety technology return records, construction condition acceptance, dangerous and large project acceptance, field monitoring records, field inspection and rectification records.

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

1. the technical department identifies and releases the dangerous and large engineering list on line and shares the dangerous and large engineering list to the management personnel at each level in time by calling the system background dangerous and large engineering database and combining the actual construction content of the project, thereby effectively avoiding the condition of incomplete identification of the dangerous and large engineering;

2. by utilizing a system scheme editor, a critical engineering scheme is compiled online in an auxiliary manner, and online examination and approval argumentations are carried out, so that the pertinence of the scheme content and the timeliness of the examination and approval argumentations are ensured;

3. the scheme bottom-crossing and the safety technology bottom-crossing are carried out on line, the system logic is preset, and the operating personnel who do not carry out the safety technology bottom-crossing cannot be used for dangerous and large engineering construction, so that the compliance of the bottom-crossing is ensured to the maximum extent;

4. the system presets dangerous and large engineering inspection frequency and inspection content, timely pushes inspection tasks for corresponding managers, and the managers can conduct inspection and issue rectification through the mobile phone APP terminal, so that safety inspection is guaranteed to obtain actual effect.

5. The system is internally provided with a construction condition acceptance table and a critical engineering acceptance table, and through dispatching acceptance tasks and acceptance time to related side personnel, the mobile phone APP terminal registers acceptance records on line, so that the compliance of acceptance work is ensured, and the work efficiency is further improved.

6. Dangerous and large engineering on-line management traces and all management data are summarized and filed on line in time. Meanwhile, managers at all levels can check related contents on line, management cooperation is achieved, and communication cost is reduced.

7. All-weather 24-hour monitoring is carried out on the critical engineering through the intelligent building site hardware facilities, change data are monitored in real time, and real and effective data support is provided for critical engineering management. Monitoring data abnormity can send out early warning information to inform project management personnel to take effective emergency measures in time.

Drawings

FIG. 1 is a flow chart of the whole process management method of critical engineering.

FIG. 2 is a schematic diagram of a hazardous engineering list according to the present invention.

Fig. 3 is a detailed schematic diagram of a specific critical project of the invention.

FIG. 4 is a diagram of engineering data for critical areas according to the present invention.

Fig. 5 is a schematic diagram of the mobile terminal viewing details of critical engineering.

FIG. 6 is a schematic view of checking and accepting construction conditions in the whole process management of critical engineering.

Fig. 7 is a schematic diagram of the registration of dangerous engineering operators according to the present invention.

Fig. 8 is a schematic diagram of recording new hidden dangers of a mobile terminal of a critical engineering according to the present invention.

Fig. 9 is a schematic diagram of the recording of the side station of the critical engineering of the invention.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only partial embodiments of the present application, but not all 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 application.

The critical engineering full-process management method based on the engineering management and control platform comprises the following steps:

step 1, based on a specific project, identifying dangerous and big projects according to a bid document and the actual construction content of the project to form a registration list;

step 2, the registered dangerous and large projects need to be announced at remarkable positions on a construction site, and meanwhile, the project management and control platform can automatically generate two-dimensional codes for each dangerous and large project;

step 3, according to the list of the critical engineering, performing on-line compilation and approval on the special construction scheme of the critical engineering, and performing expert demonstration on the critical engineering exceeding a certain scale;

step 4, making a special proposal for relevant personnel;

step 5, organizing relevant personnel to check and accept construction conditions of the dangerous and large projects;

step 6, before construction, safety technology settlement is carried out on all dangerous and large engineering operators, related personnel sign and confirm, and real-name registration is carried out on the dangerous and large engineering operators every day;

step 7, standardizing management of the construction process of the dangerous and large engineering, and organizing related personnel to perform safety side station and safety production inspection and hidden danger troubleshooting on the construction process of the dangerous and large engineering in the construction process;

step 8, after the construction is finished, organizing relevant personnel of the project to check and accept the critical engineering,

and 9, establishing a management file of the dangerous and large engineering, and filing all data formed in the whole process of the dangerous and large engineering.

In a specific embodiment, as shown in figures 1 to 9,

step 1, based on a specific project, according to a bid file and actual construction content of the project, identifying dangerous and large projects, organizing a project general work organization technology, projects and safety personnel, on the basis of a dangerous and large project list in the bid file, combining project construction characteristics and methods, supplementing and perfecting the project dangerous and large project list, carrying out check-up in a dangerous and large project database of a project management and control platform, and according to a project schedule general plan and construction arrangement, determining the starting time, the planning completion time and specific responsible persons of construction units of each dangerous and large project, and forming a registration list.

And 2, after the dangerous and large project list is registered, the project is announced at a remarkable position of a construction site, meanwhile, the project management and control platform automatically generates a two-dimensional code containing basic information of the dangerous and large project for each dangerous and large project, and the name, the position, the planned start time, the planned completion time, main management and control measures and specific responsible persons of a construction unit can be checked by scanning the two-dimensional code.

Step 3, according to the list of the critical engineering, performing on-line compilation and approval on the special construction scheme of the critical engineering, and performing expert demonstration on the critical engineering exceeding a certain scale; the technical personnel of the project organization make a critical engineering special construction scheme compilation plan according to a construction project schedule, compile the critical engineering special construction scheme according to the critical engineering special construction scheme, compile a special construction scheme on line before the critical engineering construction, initiate scheme approval on line, submit company approval according to the flow after being audited by all departments of the project manager department and signed and confirmed by the project master and the project manager, and organize and implement the project manager department after being signed and confirmed by the company master engineer; and (4) performing offline expert demonstration on dangerous large projects exceeding a certain scale, and uploading the demonstration result to a project management and control platform in time for storage.

Step 4, carrying out project planning and settlement to related personnel, wherein before the implementation of the project construction, project organization is carried out, and project establishment personnel or project general workers should carry out project planning and settlement to project managers, project engineering managers, technical managers, safety managers, materials, equipment managers, management managers and sub-package unit field responsible persons; organizing a special project meeting under a project line, and performing real-name registration on the handed people through an engineering management and control platform critical engineering management system (for example, performing real-name check or two-dimensional code counting on the handed people through the engineering management and control platform critical engineering management system) to form a handed people list and perform signature confirmation; meanwhile, the transaction contents can be uploaded to a system platform, and all personnel can look up the transaction contents of the special project on line for dynamic use of project management personnel.

The specific process of the two-dimension code mode statistics is as follows: each worker has a unique two-dimensional code which is equivalent to an identity card, the two-dimensional code is printed and attached to a safety helmet, each worker brushes the two-dimensional code to represent that the user accepts the end of the transaction, and the other scheme is that the end of the transaction forms a two-dimensional code for punching a card on a large screen; each person scans the code and then automatically uploads the code to the system. The two-dimensional code is associated with the real-name information, and education files are arranged in the real-name information of each person.

Step 5, organizing relevant personnel to check and accept construction conditions of the dangerous and large projects; one week before the construction of the critical engineering, the responsible personnel of the project manager organization engineering, technology, safety, equipment, materials and other related departments check and accept the construction conditions of the critical engineering, check and accept a special construction scheme, construction materials, equipment and tools, the field surrounding environment, safety protection, safety warning signs and the like, divide the work according to the checking and accepting tasks, send the checking and accepting tasks to the checking and accepting personnel of all departments of the project through a mobile phone terminal APP, the checking and accepting personnel fill checking and accepting records on line, and the system automatically collects checking and accepting results; the construction condition of the dangerous and large engineering exceeding a certain scale is checked and accepted, and relevant responsible persons of functional departments such as company technology, construction, quality, safety and the like should participate in the checking and acceptance.

Step 6, before project construction, safety technical measure compilers or construction managers should make safety technical background check on all the operators participating in the project construction, and both parties and project full-time safety production managers sign and confirm the safety technical background check, and during the implementation period of critical projects, project workers should organize construction units to register the construction operators every day, and record the names, operation time, operation positions, workers with shifts and other information, and the registered operators must be the operators who make safety technical background check; all the operating personnel who participate in the transaction before the security technology of the dangerous and large engineering is handed over to the end are registered, a list of people to be handed over is automatically formed after the security technology transaction is completed, and related personnel sign and confirm; the real-name registration is realized by face recognition, scanning the two-dimensional code real-name information of each operator or manually checking the operator information in the system, a list of handed persons is automatically formed after the safety technology is handed over, and related personnel sign and confirm;

before the construction of the critical engineering every day, the project laborers count the construction workers on the day, register the workers in the system, and select the registered workers from the list which finishes the corresponding safety technology exchange.

Step 7, standardizing management of the construction process of the dangerous and large engineering, and organizing related personnel to perform safety side station and safety production inspection and hidden danger troubleshooting on the construction process of the dangerous and large engineering in the construction process; the large engineering process management and control comprises two parts, namely:

intelligent hardware of an intelligent construction site is additionally installed, monitoring points are arranged at corresponding positions of a construction site of the dangerous and large engineering, intelligent identification devices are installed at the monitoring points, the implementation process of the dangerous and large engineering is monitored, field data are fed back to a management system of the dangerous and large engineering in real time to be displayed, and if abnormal conditions are monitored, alarm information is sent out and simultaneously a responsible person is notified to process; meanwhile, an electronic enclosure is arranged in a construction area of a dangerous and large project, so that automatic alarm prompt of personnel entering and exiting is realized;

for example, during construction of dangerous and large projects such as foundation pit support, high formwork and the like, safety monitoring equipment is required to be arranged, and real-time online monitoring and real-time early warning are realized; operation data monitoring equipment is installed on the tower crane and the construction elevator, so that real-time monitoring of data such as verticality, load capacity, operation height and anti-collision is realized, and automatic early warning is realized; and the operator biological identification system is installed, so that unauthorized operators are prevented from operating the machine. An electronic enclosure is arranged in a dangerous and large engineering construction area, and automatic alarm prompt of personnel entering and exiting is achieved.

The site security personnel side station is used for setting side station supervisors according to management requirements during construction of dangerous and large projects, carrying out security construction inspection and hidden danger troubleshooting in real time, filling inspection records in real time through a mobile phone APP, and distributing hidden danger rectification notice sheets on line; during the implementation of the critical engineering, a company needs to organize related personnel such as engineering, technology, safety, human resources and the like to perform safety production inspection and hidden danger troubleshooting on the construction process of the critical engineering.

Step 8, after the construction is finished, organizing project related personnel to check and accept the critical engineering, organizing multiple personnel of an internal project main worker to participate in the check and acceptance, and sub-branch companies and group personnel to participate in the check and acceptance, wherein the project main worker dispatches a check and acceptance task through a mobile phone terminal APP, organizes all the related personnel to perform the critical engineering check and acceptance, and all the check and acceptance personnel fill in check and acceptance information on line, and the system automatically collects check and acceptance records; if a company needs to participate in critical engineering acceptance, related personnel can remotely participate in video acceptance through a remote acceptance mode (such as intelligent glasses) through real-time video equipment, an acceptance record table is automatically generated after the acceptance record table passes, and the acceptance record table is uploaded to an engineering management and control platform after signing is completed; after the critical engineering is qualified, the project chief and the general supervision engineer can enter the next procedure after signing and confirmation. Meanwhile, the project chief worker arranges a special person and a construction sub-packaging unit to arrange an acceptance signboard at an obvious position of a construction site, and the acceptance time and responsibility personnel are disclosed.

Step 9, establishing a management file of the dangerous and large engineering, and filing all data formed in the whole process of the dangerous and large engineering, namely one file; enterprises, molecular companies and projects can be checked; the archived material includes: the list of dangerous and large projects and the safety management measures and the examination and approval of the dangerous and large projects pass through a special construction scheme, expert demonstration data, personnel registration data, scheme and safety technology return records, construction condition acceptance, dangerous and large project acceptance, field monitoring records, field inspection and rectification records.

In the drawings of the application, some drawings have parts with different gray scales and unclear handwriting, and because the system has various interfaces and colors during online operation, the parts with different gray scales and unclear handwriting are only used for explaining the technical scheme, and different operations and items are distinguished, the disclosure of the technical scheme of the application is not influenced, and a person skilled in the art can make corresponding adjustment according to specific items.

Those skilled in the art will appreciate that variations may be implemented by those skilled in the art in combination with the prior art and the above-described embodiments, and will not be described herein in detail. Such variations do not affect the essence of the present invention and are not described herein.

The above description is of the preferred embodiment of the invention. It is to be understood that the invention is not limited to the particular embodiments described above, in that devices and structures not described in detail are understood to be implemented in a manner common in the art; those skilled in the art can make many possible variations and modifications to the disclosed embodiments, or modify equivalent embodiments to equivalent variations, without departing from the spirit of the invention, using the methods and techniques disclosed above. Therefore, any simple modification, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the protection scope of the technical solution of the present invention, unless the content of the technical solution of the present invention is departed from.

Claims (10)

1. A critical engineering full-process management method based on an engineering management and control platform is characterized by comprising the following steps: the method comprises the following steps:

step 1, based on a specific project, identifying dangerous and big projects according to a bid document and the actual construction content of the project to form a registration list;

step 2, the registered dangerous and large projects need to be announced at remarkable positions on a construction site, and meanwhile, the project management and control platform can automatically generate two-dimensional codes for each dangerous and large project;

step 3, according to the list of the critical engineering, performing on-line compilation and approval on the special construction scheme of the critical engineering, and performing expert demonstration on the critical engineering exceeding a certain scale;

step 4, making a special proposal for relevant personnel;

step 5, organizing relevant personnel to check and accept construction conditions of the dangerous and large projects;

step 6, before construction, safety technology settlement is carried out on all dangerous and large engineering operators, related personnel sign and confirm, and real-name registration is carried out on the dangerous and large engineering operators every day;

step 7, standardizing management of the construction process of the dangerous and large engineering, and organizing related personnel to perform safety side station and safety production inspection and hidden danger troubleshooting on the construction process of the dangerous and large engineering in the construction process;

step 8, after the construction is finished, organizing relevant personnel of the project to check and accept the critical engineering,

and 9, establishing a management file of the dangerous and large engineering, and filing all data formed in the whole process of the dangerous and large engineering.

2. The critical engineering full-process management method based on the engineering management and control platform according to claim 1, characterized in that: in the step 1, identification of dangerous large projects is carried out, and a registration list is formed in the following process:

project headquarters organization technology, projects and safety personnel combine project construction characteristics and methods on the basis of a critical project list in a bidding document to supplement and perfect the project critical project list, carry out check in a critical project database of a project management and control platform, and clarify the start time, the plan completion time and the specific responsibility of a construction unit of each critical project plan according to a project schedule total plan and construction arrangement.

3. The critical engineering full-process management method based on the engineering management and control platform according to claim 1, characterized in that: and 2, after the dangerous and large project list is registered, the project is announced at a remarkable position of a construction site, meanwhile, the project management and control platform automatically generates a two-dimensional code containing basic information of the dangerous and large project, and the name, the position, the planned start time, the planned completion time, main management and control measures and a specific person of responsibility of a construction unit can be checked by scanning the two-dimensional code.

4. The critical engineering full-process management method based on the engineering management and control platform according to claim 1, characterized in that: the specific implementation process of the step 3 is as follows:

the project organization technical personnel make a critical engineering special construction scheme compilation plan according to a construction project schedule, compile a plan according to the critical engineering special construction scheme, compile a special construction scheme on line before the construction of the critical engineering, and initiate scheme approval on line; and (4) performing offline expert demonstration on dangerous large projects exceeding a certain scale, and uploading the demonstration result to a project management and control platform in time for storage.

5. The critical engineering full-process management method based on the engineering management and control platform according to claim 1, characterized in that: the specific process of the project proposal in the step 4 is as follows:

organizing a special project meeting under a project line, and performing real-name registration on the handed people through a critical engineering management system of an engineering management and control platform to form a list of the handed people and perform signature confirmation; meanwhile, the transaction contents can be uploaded to a system platform, and all personnel can look up the transaction contents of the special project on line for dynamic use of project management personnel.

6. The critical engineering full-process management method based on the engineering management and control platform according to claim 1, characterized in that: the concrete process of checking and accepting the construction conditions in the step 5 is as follows:

before one week of dangerous and large engineering construction, personnel of related departments of project manager organization check and accept construction conditions of dangerous and large engineering, divide the work according to the check and accept task, distribute the check and accept task to the personnel of each department of project check and accept through cell-phone end APP, the personnel of checking and accepting fill in the check and accept record on line, and the system gathers the check and accept result automatically.

7. The critical engineering full-process management method based on the engineering management and control platform according to claim 1, characterized in that: in step 6, the safety technology is handed over, and the specific process of the registration of the operating personnel is as follows:

all the operating personnel who participate in the transaction before the security technology of the dangerous and large engineering is handed over to the end are registered, a list of people to be handed over is automatically formed after the security technology transaction is completed, and related personnel sign and confirm; the real-name registration is realized by face recognition, scanning the two-dimensional code real-name information of each operator or manually checking the operator information in the system, a list of handed persons is automatically formed after the safety technology is handed over, and related personnel sign and confirm;

before the construction of the critical engineering every day, the project laborers count the construction workers on the day, register the workers in the system, and select the registered workers from the list which finishes the corresponding safety technology exchange.

8. The critical engineering full-process management method based on the engineering management and control platform according to claim 1, characterized in that: the management and control of the dangerous large engineering process in the step 7 comprises two parts, namely:

intelligent hardware of an intelligent construction site is additionally installed, monitoring points are arranged at corresponding positions of a construction site of the dangerous and large engineering, intelligent identification devices are installed at the monitoring points, the implementation process of the dangerous and large engineering is monitored, field data are fed back to a management system of the dangerous and large engineering in real time to be displayed, and if abnormal conditions are monitored, alarm information is sent out and simultaneously a responsible person is notified to process; meanwhile, an electronic enclosure is arranged in a construction area of a dangerous and large project, so that automatic alarm prompt of personnel entering and exiting is realized;

the other station of site security personnel according to the management requirement, when danger big engineering construction, sets up other station supervisors, carries out safety construction inspection and hidden danger investigation in real time to fill in the inspection record in real time through cell-phone APP, distribute hidden danger rectification notice on line.

9. The critical engineering full-process management method based on the engineering management and control platform according to claim 1, characterized in that: the specific process of the critical engineering acceptance in the step 8 is as follows:

the project chief worker sends an acceptance task through the mobile phone terminal APP, organizes all parties relevant personnel to carry out critical project acceptance, each acceptance personnel fills in acceptance information on line, and the system automatically collects acceptance records; if a company needs to participate in critical engineering acceptance, related personnel can remotely participate in video acceptance through real-time video equipment, an acceptance record table is automatically generated after the acceptance record table passes, and the acceptance record table is uploaded to an engineering management and control platform after signing is completed; after the acceptance is finished, hanging acceptance cards in the relevant areas.

10. The critical engineering full-process management method based on the engineering management and control platform according to claim 1, characterized in that: the data archived in step 9 includes: the list of dangerous and large projects and the safety management measures and the examination and approval of the dangerous and large projects pass through a special construction scheme, expert demonstration data, personnel registration data, scheme and safety technology return records, construction condition acceptance, dangerous and large project acceptance, field monitoring records, field inspection and rectification records.

Images