CN113870047A - Power engineering management and control system - Google Patents
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Abstract
The invention discloses an electric power engineering management and control system, which comprises: the system comprises a basic setting module, a permission management module, a project planning module, a plan management module, a progress management module, a safety supervision module and a risk management and control module; the electric power engineering management and control system strengthens the guiding effect of the plan on engineering site construction through fine compilation and flexibility adjustment of the engineering plan, realizes visual display of engineering projects and resources through an engineering progress general billboard, realizes reasonable resource allocation and improves project construction benefits. The management requirements of all levels of management layers are met, and the engineering information management is standardized and transparent; the engineering safety production management means is enriched, and the engineering project construction process management is enhanced. The electric power engineering management and control system closely associates each module with the risk management and control module, realizes double-chain coupling of the engineering business process and the risk management and control, ensures full coverage of business process risk identification, automatically generates a pre-control measure according to a risk identification result, and achieves risk pre-control and early warning of construction operation. The method has the advantages that the traditional engineering management and control mode is changed, meanwhile, the informatization process is comprehensively promoted, the refined and standardized management and control of the engineering implementation process are realized, the engineering management is controllable and can be controlled, the control is in place, and the engineering management benefit is effectively improved.
Description
Technical Field
The invention relates to the field of electric power engineering management and control, in particular to an electric power engineering management and control system.
Background
With the increasing scale of engineering projects, the management of the engineering projects plays an increasingly important role in the management of power enterprises. The requirements of electric power engineering management and control are increasingly fine and standard, and the mode of simply relying on manual work to manage the whole process of an engineering project cannot adapt to enterprise management requirements. The engineering plan or progress implementation tracking, the engineering construction process management, the engineering safety quality supervision, the engineering archive management and other links are all monitored through the traditional manual site, and the personnel requirement and the cost are higher. The method aims at the defects that the construction operation in the project engineering lacks quality safety on-line inspection and patrol management, and does not have special risk management and control and solution measures for the whole project and the construction operation.
Under the great trend of competing and promoting the development of the industry, an engineering management and control mode needs to be innovated, informatization and digitization processes are comprehensively promoted, standardized management and control on the engineering implementation process are realized, and the quality, safety and risk of engineering management are controllable, controllable in performance and control, and the engineering management benefit is effectively improved.
Disclosure of Invention
The invention aims to overcome the defects of the prior art and provide an electric power engineering management and control system, which comprehensively advances informatization and digitization processes through innovation of an engineering management and control mode, realizes standardized management and control of an engineering implementation process, and enables the quality, safety and risk of engineering management to be controllable, controllable in control and effectively improved in engineering management benefits.
The technical scheme for realizing the purpose is as follows: an electric power engineering management and control system, comprising: the system comprises a basic setting module, a permission management module, a project planning module, a plan management module, a progress management module, a safety supervision module and a risk management and control module;
the basic setting module is used for defining basic data information of the maintenance system;
the authority management module is used for configuring the authority of the role according to the functions of the user, and displaying different engineering information among the authorities of different roles;
the project planning module is used for project planning management such as project definition, organization and distribution and the like on projects and sub-projects;
the plan management module is used for compiling and adjusting a work plan and an operation plan, and carrying out plan approval and division according to the project planning module;
the progress management module is used for managing and controlling the progress of the whole project, including monitoring links such as construction tasks and site reconnaissance and recording information, associating the project plan with the construction task information through the plan management module, and managing and controlling the progress of the project by combining a plurality of modules;
the safety supervision module is used for checking construction behaviors, management and other violation measures in the whole project;
the risk management and control module is used for defining risk categories and risk pre-control measures, preventing risks in construction operation by combining with other modules, and checking and monitoring quality, safety and other problems in the construction process;
the risk management and control module is mutually associated with the basic setting module, the project planning module, the plan management module, the progress management module and the patrol management module, interacts with information of different sub-modules, and prevents and manages risks faced in construction operation.
According to the electric power engineering management and control system, the risk management and control module comprises an environment element library, a risk element library, a working machine library, a standard risk library and newly-added risk management;
the environment element library comprises a general environment, an electrical environment, a geological environment, a space environment and an operation mode; the operation mode comprises dust operation and mechanical operation; the risk element library defines different risk elements in the construction process based on the environment elements; the working machine tool library is used for defining, classifying and recording information of working machine tools used in the construction process; the standard risk library is used for carrying out risk identification on the construction sequence and steps in construction operation, the site environment and the content of an operation tool by combining an environment element library, a risk element library and an operation tool library to obtain risks and solving measures corresponding to the construction operation content in different construction environments; the new risk management is used for managing new risks in the construction operation process, and auditing, grading and inputting the new risks and solving measures thereof;
the risk management and control module interacts with the construction tasks in the progress management module, the risk management and control module generates corresponding risk numbers, environment factors, risk levels and operation machines according to the construction task content, the generated related information of risks is associated with a standard risk library, the associated result is combined with the actual field environment to generate a risk identification result, and the risk identification result contains risk solving measures.
The electric power engineering management and control system further comprises a field management and control module, wherein the field management and control module is used for carrying out real-time interaction and management on an engineering field through plan aggregation and mobile monitoring equipment on the basis of the plan management module and combining with the progress management module, reflecting operation planning points and construction states of different positions of project construction operation and carrying out video monitoring on the construction field;
the project management module and the progress management module set plans and progress information for the project tasks, and the field control module is combined with the mobile monitoring equipment to monitor and manage the construction field on the basis of the plan management module and the progress management module; the field control module is provided with a map display frame, and information screening frames such as construction sites, construction units, construction types and dates are arranged in the map.
According to the electric power engineering management and control system, the field management and control module can solidify safe and standardized operation processes, a construction field is managed and controlled through the mobile terminal device, data retention management is performed in the modes of photographing, shooting, recording and the like, and construction contents are guided; the information of the engineering construction nodes is uploaded in real time, and is interacted with the cloud server in real time, and the information of the current node time, personnel and the like is fed back to the progress management module; the mobile terminal equipment can perform offline field control in an offline state.
The above power engineering management and control system, the base setting module includes: engineering professional type definition, engineering property definition, project type definition, voltage level definition and management and control level definition;
the project professional type definition, the project property definition and the project type definition are mutually associated to form a basic definition of a project, and after the basic definition of the basic setting module is set, basic information of the project can be established by selecting different project definitions.
The above power engineering management and control system, the project planning module includes: project definition, sub-project definition, organization distribution, subpackage selection management and the like;
the project definition is used for importing project information, wherein the project information relates to contract contracts, specialties, sub-project definitions and file lists;
the project definition of the total project can be divided to obtain the project definitions of the sub-projects, and the sub-project definitions interact with the month plan, the week plan and the day plan in the plan management module and the progress management module, so that information association among different modules can be realized.
The power engineering management and control system comprises a month plan, a month plan examination and approval, a month plan list, a week plan examination and approval, a day plan, an operation plan filling and the like;
the month plan can be automatically split into a week plan and a day plan, the work plan is filled in for the plan filling of a sub-package team for the next week task, and the approval process of the work plan is different from the week plan;
the operation plan filling module is associated with the risk control module in information, the risk control module generates corresponding risk pre-control information according to the filled operation plan, and the risk pre-control information comprises risk factors existing in construction operation and corresponding solving measures.
The above electric power engineering management and control system, the progress management module includes: start-up reports, site surveys, construction bottoms, construction tasks, daily arrangements, team logs, completion reports, and the like;
the start report comprises a total project start report and sub-project start reports, wherein the total project start report comprises all the sub-project start reports, and when all the sub-project start reports of the same project are finished, the start report of the total project can be automatically generated; the completion report is divided into a total project completion report and a sub project completion report, the total project completion notice is composed of sub project completion reports, and the completion report of the total project is automatically generated when all the sub project completion reports of the same project are completed.
The safety supervision module comprises a checking type, a field check, an online check, a verbal warning list, an rectification list and a self-correction list, wherein the field check comprises a branch company check, a branch package company self-check, a group check and a self-check; the safety supervision module sets inspection contents according to safety regulations and carries out compliance inspection on the construction process;
the examination type is used for defining and editing the organization type, the name, the serial number, the availability and the associated information of the examiner;
the on-site inspection is that an inspector inspects on a construction site, and performs compliance judgment and on-site recording by recording, photographing, recording and the like at a mobile terminal;
the online inspection automatically forms an online inspection list through site recording and video monitoring, meanwhile, the construction tasks are inspected by combining the audio and the photos of the construction log module, the online inspection module generates a corresponding online inspection list according to the progress management module and the plan management module, inspectors can inspect according to relevant data of construction sites uploaded in the system, inspection results are recorded into the system, and a safety supervision record is generated;
according to the on-site inspection and the on-line inspection result, the safety supervision module generates a verbal warning sheet and a rectification sheet aiming at the violation content or the content needing rectification, wherein the verbal warning sheet comprises the violation content, reasons and measures and notifying personnel; the rectification list comprises violation content, rectification measures, processing decisions, a rectification closed-loop list and notification personnel.
The electric power engineering management and control system further comprises an operation management module, wherein the operation management module comprises contract, subcontract basis, subcontract contract and bid/bid record; the operation management module is used for collecting the project contract, inputting the bidding record and carrying out centralized management on the project related materials;
the contract and subcontract module in the management and management module is used for receiving contracts of different engineering projects, the contract and subcontract can edit and summarize information aiming at the entered contract, corresponding contract lists are generated according to key information and key words of the entered contract, and the detail summary lists can be generated in a centralized manner according to different contract lists.
The power engineering management and control system further comprises a quality evaluation module, wherein the quality evaluation module comprises subcontracting self-evaluation, company reevaluation and company spot check; the quality evaluation module is used for carrying out quality inspection and evaluation on the pictures acquired in the construction process, providing visual construction process records and realizing quality evaluation on construction teams and groups.
The electric power engineering management and control system further comprises an inspection management module, wherein the inspection management module comprises inspection quality items, an inspection plan, an inspection list and an inspection self-correction list;
the patrol plan is generated according to an operation plan in the plan management module, patrol personnel of different levels are distributed according to different risk levels of patrol contents, and the patrol personnel carry out patrol of risk, quality, safety and the like; the patrol order is generated according to the construction tasks in the operation plan module;
the patrol self-correction bill is a bill for carrying out correction application aiming at the violation items in the patrol process, and after the patrol self-correction bill is generated, relevant personnel can correct and correct the contents of the patrol self-correction bill; the inspection quality item refers to specific inspection content corresponding to a quality part in the inspection process;
the inspection plan is generated according to the operation plan, the inspection content is bound with the information of a risk control module carried by the operation plan, the inspection content comprises quality inspection and risk inspection carried out on the construction process, the inspection content of the risk inspection is mutually associated with the operation plan module and the risk control module, the risk control module determines information such as risk factors, risk environments and the like of specific construction projects according to the operation plan and is bound with the inspection content to generate the inspection plan; the patrolman of the patrolman plan can generate a patrolman bill after determining, and can monitor and record patrolman operation through the patrolman bill.
The power engineering management and control system further comprises a sub-packaging enterprise information management module, wherein the module comprises a sub-packaging enterprise module, a sub-packaging enterprise personnel module and a report analysis module;
the sub-packet enterprise module comprises enterprise information, enterprise qualification and an enterprise blacklist; the enterprise information is mainly used for integrating basic information of the sub-packet enterprises and comprises enterprise information such as enterprise names, enterprise numbers, enterprise types, insurance acceptance modes, staff numbers, enterprise states and the like; the enterprise qualification comprises an enterprise name, a certificate validity period and the like; the enterprise blacklist is used for recording and sorting information of the sub-packet enterprises with bad records; the subcontracting enterprise personnel module comprehensively manages the information of all personnel, operators, special personnel and managers, and simultaneously, the module also comprises records and reminders of personnel certificate expiration, training information expiration, physical examination information expiration and insurance information expiration; the report analysis module is used for checking the content of illegal chapter behaviors and the like of the subpackage enterprises and personnel in the construction operation, and meanwhile, the module can carry out quantitative qualification checking evaluation according to the execution condition of site construction, qualification information of the subpackage enterprises and the subpackage personnel, the effective date of a related certificate and the like;
the sub-package enterprise module and the sub-package enterprise personnel module are related to the project planning module, the plan management module and the progress management module, and sub-package enterprises and sub-package personnel are distributed according to the project type, the qualification and the professional type of the sub-package enterprises and sub-package personnel.
The power engineering management and control system further comprises a tool management module, wherein the tool management module is used for managing information such as state record, acceptance record and acceptance prompt of tools of a sub-package enterprise; the tool management module comprises a tool state, a tool ledger, a tool purchase order, a tool acceptance order, an expired inspection and submission prompt, a tool maintenance order and a tool maintenance order;
the tool management module is associated with the sub-package enterprise module and the operation planning module, manages and records information of tools of the sub-package enterprise, and can be combined with the operation planning module to record the use condition, the state and the management condition of the tools in construction operation.
The electric power engineering management and control system provided by the invention changes the traditional engineering management and control mode, simultaneously comprehensively advances the informatization process, realizes the refined and standardized management and control of the engineering implementation process, and enables the engineering management to be controllable, controllable and effectively improves the engineering management benefit.
Drawings
FIG. 1 is a general schematic diagram of an electric power engineering management and control system according to the present invention
FIG. 2 is a schematic diagram of the basic configuration module of the present invention
FIG. 3 is a schematic diagram of the structure of the rights management module of the present invention
FIG. 4 is a schematic diagram of a project planning module according to the present invention
FIG. 5 is a schematic diagram of the plan manager module according to the present invention
FIG. 6 is a block diagram of a schedule management module according to the present invention
FIG. 7 is a schematic diagram showing the structure of the security supervision module according to the present invention
FIG. 8 is a schematic diagram illustrating a risk management module according to the present invention
FIG. 9 is a schematic diagram of the field management and control module according to the present invention
FIG. 10 is a schematic diagram of the structure of the operation management module of the present invention
FIG. 11 is a schematic diagram of the patrol management module according to the present invention
Detailed Description
In order that those skilled in the art will better understand the technical solution of the present invention, the following detailed description is given with reference to the accompanying drawings:
the electric engineering management and control system of the present invention is described below with reference to fig. 1 to 10. Fig. 1 shows an overall schematic diagram of the electric power engineering management and control system of the invention. As shown in fig. 1 to 8, an electric power engineering management and control system includes: the system comprises a basic setting module, a permission management module, a project planning module, a plan management module, a progress management module, a safety supervision module and a risk management and control module;
the basic setting module is used for defining basic data information of the maintenance system;
the authority management module is used for configuring the authority of the role according to the functions of the user, and displaying different engineering information among the authorities of different roles;
the project planning module is used for project planning management such as project definition, organization and distribution and the like on projects and sub-projects;
the plan management module is used for compiling and adjusting a work plan and an operation plan, and carrying out plan approval and division according to the project planning module;
the progress management module is used for managing and controlling the progress of the whole project, including monitoring links such as construction tasks and site reconnaissance and recording information, associating the project plan with the construction task information through the plan management module, and managing and controlling the progress of the project by combining a plurality of modules;
the safety supervision module is used for checking construction behaviors, management and other violation measures in the whole project;
the risk management and control module is used for defining risk categories and risk pre-control measures, preventing risks in construction operation by combining with other modules, and checking and monitoring quality, safety and other problems in the construction process;
the risk management and control module is mutually associated with the basic setting module, the project planning module, the plan management module, the progress management module and the patrol management module, interacts with information of different sub-modules, and prevents and manages risks faced in construction operation.
As shown in fig. 8, in the present embodiment, the risk management module includes an environment element library, a risk element library, a work tool library, a standard risk library, and a new risk management.
The environment element library comprises a general environment, an electrical environment, a geological environment, a space environment and an operation mode; the operation mode comprises dust operation and mechanical operation; the risk element library defines different risk elements in the construction process based on the environment elements; the working machine tool library is used for defining, classifying and recording information of working machine tools used in the construction process; the standard risk library is used for carrying out risk identification on the construction sequence and steps in construction operation, the site environment and the content of an operation tool by combining an environment element library, a risk element library and an operation tool library to obtain risks and solving measures corresponding to the construction operation content in different construction environments; the new risk management is used for managing new risks in the construction operation process, and auditing, grading and inputting the new risks and solving measures thereof; and uploading the newly increased risk through the mobile terminal in a site reconnaissance stage, and inputting the newly increased risk and corresponding solution measures after auditing and risk rating the newly increased risk so as to complete management of the newly increased risk.
The risk categories in the standard risk library include: general risks, special risks, and supplemental risks; the supplementary risk is submitted through a mobile terminal in a site reconnaissance stage, the submitted content is supplemented risk information filled according to site conditions, and the submitted new risk is input into a new risk management library; the related experts regularly develop offline seminars, screen the newly increased risks, sort the newly increased risks meeting the standards in a format and record the newly increased risks meeting the standards into a standard risk library.
The risk management and control module interacts with the construction tasks in the progress management module, the risk management and control module generates corresponding risk numbers, environment factors, risk levels and operation machines according to the construction task content, the generated related information of risks is associated with a standard risk library, the associated result is combined with the actual field environment to generate a risk identification result, and the risk identification result contains risk solving measures.
As shown in fig. 9, in this embodiment, the system further includes a field control module, which is based on the plan management module, and combines with the progress management module, and performs real-time interaction and management on the engineering field through the plan summary and the mobile monitoring device, reflects the operation planning points and the construction states at different positions of the project construction operation, and can perform video monitoring on the construction field.
The project management module and the progress management module set plans and progress information for the project tasks, and the field control module is combined with the mobile monitoring equipment to monitor and manage the construction field on the basis of the plan management module and the progress management module; the field control module is provided with a map display frame, and information screening frames such as construction sites, construction units, construction types and dates are arranged in the map.
The field control module can solidify a safe standardized operation flow, control a construction field through mobile terminal equipment, perform data retention management in modes of photographing, shooting, recording and the like, and guide construction contents; the information of the engineering construction nodes is uploaded in real time, and is interacted with the cloud server in real time, and the information of the current node time, personnel and the like is fed back to the progress management module; the mobile terminal equipment can perform offline field control in an offline state.
As shown in fig. 2, in this embodiment, the basic setting module includes: engineering professional type definition, engineering property definition, project type definition, voltage level definition and management and control level definition.
The project professional type definition, the project property definition and the project type definition are mutually associated to form a basic definition of a project, and after the basic definition of the basic setting module is set, basic information of the project can be established by selecting different project definitions.
As shown in fig. 4, in this embodiment, the project planning module includes: project definition, sub-project definition, organization assignment, package selection management, and the like.
The project definition is used for importing project information, wherein the project information relates to contract contracts, specialties, sub-project definitions and file lists.
The project definition of the total project can be divided to obtain the project definitions of the sub-projects, and the sub-project definitions interact with the month plan, the week plan and the day plan in the plan management module and the progress management module, so that information association among different modules can be realized.
As shown in fig. 5, in this embodiment, the plan management module includes a month plan, a month plan examination and approval, a month plan list, a week plan examination and approval, a day plan, a work plan report, and the like.
The month plan can be automatically split into a week plan and a day plan, the work plan is filled in for the plan filling of a sub-package team for the next week task, and the approval process of the work plan is different from the week plan.
The operation plan filling module is associated with the risk control module in information, the risk control module generates corresponding risk pre-control information according to the filled operation plan, and the risk pre-control information comprises risk factors existing in construction operation and corresponding solving measures.
As shown in fig. 6, in this embodiment, the schedule management module includes: start of work report, site survey, construction set-up, construction mission, daily schedule, team log, completion report, and the like.
The start report comprises a total project start report and sub-project start reports, wherein the total project start report comprises all the sub-project start reports, and when all the sub-project start reports of the same project are finished, the start report of the total project can be automatically generated; the completion report is divided into a total project completion report and a sub project completion report, the total project completion notice is composed of sub project completion reports, and the completion report of the total project is automatically generated when all the sub project completion reports of the same project are completed.
As shown in fig. 7, in the present embodiment, the security supervision module includes an inspection type, a field inspection, an online inspection, a verbal warning sheet, an rectification sheet, and a self-checking sheet, and the field inspection includes a branch inspection, a subcontractor self-checking, a group inspection, and a self-checking; the safety supervision module sets inspection contents according to safety regulations and carries out compliance inspection on the construction process.
The examination type is used for defining and editing the organization type, name, serial number, availability and associated information of the examiner.
The on-site inspection is that an inspector inspects on a construction site, and performs compliance judgment and on-site recording by recording, photographing, recording and the like on a mobile terminal.
The online inspection automatically forms an online inspection list through field recording and video monitoring, meanwhile, the construction tasks are inspected by combining the audio and the photos of the construction log module, the online inspection module generates a corresponding online inspection list according to the progress management module and the plan management module, inspectors can inspect according to relevant data of construction fields uploaded in the system, inspection results are recorded into the system, and safety supervision records are generated.
According to the on-site inspection and the on-line inspection result, the safety supervision module generates a verbal warning sheet and a rectification sheet aiming at the violation content or the content needing rectification, wherein the verbal warning sheet comprises the violation content, reasons and measures and notifying personnel; the rectification list comprises violation content, rectification measures, processing decisions, a rectification closed-loop list and notification personnel. The rectification list and the oral warning list are generated by the security department aiming at the on-site inspection of the violation items in the construction process. The self-correction list is generated by the subcontracting team to check the violation items.
As shown in fig. 10, in the present embodiment, the system further includes an operation management module, where the operation management module includes contract, subcontract basis, subcontract, and bid-attracting record; the operation management module is used for collecting the project contract, recording the bid and tender record and carrying out centralized management on project related materials.
The contract and subcontract module in the management and management module is used for receiving contracts of different engineering projects, the contract and subcontract can edit and summarize information aiming at the entered contract, corresponding contract lists are generated according to key information and key words of the entered contract, and the detail summary lists can be generated in a centralized manner according to different contract lists.
In the embodiment, the system further comprises a quality evaluation module, wherein the quality evaluation module comprises subcontracting self-evaluation, company review and company spot check; the quality evaluation module is used for carrying out quality inspection and evaluation on the pictures acquired in the construction process, providing visual construction process records and realizing quality evaluation on construction teams and groups. The quality evaluation module is used for quality inspection and evaluation by a construction management department.
As shown in fig. 11, in this embodiment, the system further includes a patrol management module, where the patrol management module includes a patrol quality item, a patrol plan, a patrol order, and a patrol self-check order.
The patrol plan is generated according to an operation plan in the plan management module, patrol personnel of different levels are distributed according to different risk levels of patrol contents, and the patrol personnel carry out patrol of risk, quality, safety and the like; the patrol order is generated according to the construction tasks in the operation plan module.
The patrol self-correction bill is a bill for carrying out correction application aiming at the violation items in the patrol process, and after the patrol self-correction bill is generated, relevant personnel can correct and correct the contents of the patrol self-correction bill; the inspection quality item refers to specific inspection content corresponding to the quality part in the inspection process.
The inspection plan is generated according to the operation plan, the inspection content is bound with the information of a risk control module carried by the operation plan, the inspection content comprises quality inspection and risk inspection carried out on the construction process, the inspection content of the risk inspection is mutually associated with the operation plan module and the risk control module, the risk control module determines information such as risk factors, risk environments and the like of specific construction projects according to the operation plan and is bound with the inspection content to generate the inspection plan; the patrolman of the patrolman plan can generate a patrolman bill after determining, and can monitor and record patrolman operation through the patrolman bill. The inspection plan is specifically to inspect the quality, risk and safety aspects of the construction content by the engineering department.
In this embodiment, the system further comprises a sub-packaging enterprise information management module, wherein the module comprises a sub-packaging enterprise module, a sub-packaging enterprise personnel module and a report analysis module.
The sub-packet enterprise module comprises enterprise information, enterprise qualification and an enterprise blacklist; the enterprise information is mainly used for integrating basic information of the sub-packet enterprises and comprises enterprise information such as enterprise names, enterprise numbers, enterprise types, insurance acceptance modes, staff numbers, enterprise states and the like; the enterprise qualification comprises an enterprise name, a certificate validity period and the like; the enterprise blacklist is used for recording and sorting information of the sub-packet enterprises with bad records; the subcontracting enterprise personnel module comprehensively manages the information of all personnel, operators, special personnel and managers, and simultaneously, the module also comprises records and reminders of personnel certificate expiration, training information expiration, physical examination information expiration and insurance information expiration; the report analysis module is used for checking the content of illegal chapter behaviors and the like of the subpackage enterprises and personnel in the construction operation, and meanwhile, the module can carry out quantitative qualification checking evaluation according to the execution condition of site construction, qualification information of the subpackage enterprises and the subpackage personnel, the effective date of the related certificate and the like.
The sub-package enterprise module and the sub-package enterprise personnel module are related to the project planning module, the plan management module and the progress management module, and sub-package enterprises and sub-package personnel are distributed according to the project type, the qualification and the professional type of the sub-package enterprises and sub-package personnel.
And (4) carrying out qualification audit on enterprise qualification (including certificate information, personnel composition, tool holding, current accepted projects and the like) and personnel qualification (including information such as certificates, training, physical examination, insurance and the like) of subcontractors of accepted projects. Enterprise certificates, personnel certificates, training, physical examination and insurance information are subjected to expiration reminding, and information is checked when corresponding changes are applied; meanwhile, enterprise bearing capacity, personnel qualification capacity and construction task arrangement are hooked, and qualified enterprises and personnel are strictly matched.
In this embodiment, the system further comprises a tool management module, wherein the tool management module is used for managing information such as state record, acceptance record and acceptance prompt of tools of a sub-package enterprise; the tool management module comprises a tool state, a tool ledger, a tool purchase order, a tool acceptance order, an inspection due submission prompt, a tool overhaul order and a tool warranty order.
The tool management module is associated with the sub-package enterprise module and the operation planning module, manages and records information of tools of the sub-package enterprise, and can be combined with the operation planning module to record the use condition, the state and the management condition of the tools in construction operation.
In the embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, the division of the units is only one logical division, and there may be other divisions in actual implementation, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, or in a form of hardware plus a software functional unit.
Those skilled in the art will appreciate that the above-described integrated unit implemented in the form of a software functional unit may be stored in a computer readable storage medium. The software functional unit is stored in a storage medium, and the storage medium may include: a medium such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.
It should be understood by those skilled in the art that the above embodiments are only for illustrating the present invention and are not to be used as a limitation of the present invention, and that changes and modifications to the above described embodiments are within the scope of the claims of the present invention as long as they are within the spirit and scope of the present invention.
Claims (14)
1. An electric power engineering management and control system, comprising: the system comprises a basic setting module, a permission management module, a project planning module, a plan management module, a progress management module, a safety supervision module and a risk management and control module;
the basic setting module is used for defining basic data information of the maintenance system;
the authority management module is used for configuring the authority of the role according to the functions of the user, and displaying different engineering information among the authorities of different roles;
the project planning module is used for project planning management such as project definition, organization and distribution and the like on projects and sub-projects;
the plan management module is used for compiling and adjusting a work plan and an operation plan, and carrying out plan approval and division according to the project planning module;
the progress management module is used for managing and controlling the progress of the whole project, including monitoring links such as construction tasks and site reconnaissance and recording information, associating the project plan with the construction task information through the plan management module, and managing and controlling the progress of the project by combining a plurality of modules;
the safety supervision module is used for checking construction behaviors, management and other violation measures in the whole project;
the risk management and control module is used for defining risk categories and risk pre-control measures, preventing risks in construction operation by combining with other modules, and checking and monitoring quality, safety and other problems in the construction process;
the risk management and control module is mutually associated with the basic setting module, the project planning module, the plan management module, the progress management module and the patrol management module, interacts with information of different sub-modules, and prevents and manages risks faced in construction operation.
2. The electric power engineering management and control system of claim 1, wherein the risk management and control module comprises an environmental element library, a risk element library, a work tool library, a standard risk library and new risk management;
the environment element library comprises a general environment, an electrical environment, a geological environment, a space environment and an operation mode; the operation mode comprises dust operation and mechanical operation; the risk element library defines different risk elements in the construction process based on the environment elements; the working machine tool library is used for defining, classifying and recording information of working machine tools used in the construction process; the standard risk library is used for carrying out risk identification on the construction sequence and steps in construction operation, the site environment and the content of an operation tool by combining an environment element library, a risk element library and an operation tool library to obtain risks and solving measures corresponding to the construction operation content in different construction environments; the new risk management is used for managing new risks in the construction operation process, and auditing, grading and inputting the new risks and solving measures thereof;
the risk management and control module interacts with the construction tasks in the progress management module, the risk management and control module generates corresponding risk numbers, environment factors, risk levels and operation machines according to the construction task content, the generated related information of risks is associated with a standard risk library, the associated result is combined with the actual field environment to generate a risk identification result, and the risk identification result contains risk solving measures.
3. The electric power engineering management and control system of claim 1, further comprising a field management and control module, wherein the field management and control module is based on the plan management module, combines with the progress management module, and interacts and manages the engineering field in real time through the plan summary and the mobile monitoring device, reflects the operation planning points of the project construction operation and the construction states of different positions, and can perform video monitoring on the construction field;
the project management module and the progress management module set plans and progress information for the project tasks, and the field control module is combined with the mobile monitoring equipment to monitor and manage the construction field on the basis of the plan management module and the progress management module; the field control module is provided with a map display frame, and information screening frames such as construction sites, construction units, construction types and dates are arranged in the map.
4. The electric power engineering management and control system of claim 3, wherein the site management and control module can solidify a safe standardized operation process, manage and control a construction site through mobile terminal equipment, perform data retention management in modes of photographing, shooting, recording and the like, and guide construction contents; the information of the engineering construction nodes is uploaded in real time, and is interacted with the cloud server in real time, and the information of the current node time, personnel and the like is fed back to the progress management module; the mobile terminal equipment can perform offline field control in an offline state.
5. The power engineering management and control system of claim 1, wherein the base set-up module comprises: engineering professional type definition, engineering property definition, project type definition, voltage level definition and management and control level definition;
the project professional type definition, the project property definition and the project type definition are mutually associated to form a basic definition of a project, and after the basic definition of the basic setting module is set, basic information of the project can be established by selecting different project definitions.
6. A power engineering management system according to claim 1, wherein the project planning module comprises: project definition, sub-project definition, organization distribution, subpackage selection management and the like;
the project definition is used for importing project information, wherein the project information relates to contract contracts, specialties, sub-project definitions and file lists;
the project definition of the total project can be divided to obtain the project definitions of the sub-projects, and the sub-project definitions interact with the month plan, the week plan and the day plan in the plan management module and the progress management module, so that information association among different modules can be realized.
7. An electric power engineering management and control system according to claim 1, wherein the plan management module comprises a month plan, a month plan examination and approval, a month plan list, a week plan examination and approval, a day plan, an operation plan filling and reporting and the like;
the month plan can be automatically split into a week plan and a day plan, the work plan is filled in for the plan filling of a sub-package team for the next week task, and the approval process of the work plan is different from the week plan;
the operation plan filling module is associated with the risk control module in information, the risk control module generates corresponding risk pre-control information according to the filled operation plan, and the risk pre-control information comprises risk factors existing in construction operation and corresponding solving measures.
8. The power engineering management system of claim 1, wherein the progress management module comprises: start-up reports, site surveys, construction bottoms, construction tasks, daily arrangements, team logs, completion reports, and the like;
the start report comprises a total project start report and sub-project start reports, wherein the total project start report comprises all the sub-project start reports, and when all the sub-project start reports of the same project are finished, the start report of the total project can be automatically generated; the completion report is divided into a total project completion report and a sub project completion report, the total project completion notice is composed of sub project completion reports, and the completion report of the total project is automatically generated when all the sub project completion reports of the same project are completed.
9. The electric power engineering management and control system of claim 1, wherein the safety supervision module comprises inspection types, on-site inspection, online inspection, oral warning list, rectification list and self-correction list, and the on-site inspection comprises division inspection, subcontractor self-inspection, group inspection and self-inspection; the safety supervision module sets inspection contents according to safety regulations and carries out compliance inspection on the construction process;
the examination type is used for defining and editing the organization type, the name, the serial number, the availability and the associated information of the examiner;
the on-site inspection is that an inspector inspects on a construction site, and performs compliance judgment and on-site recording by recording, photographing, recording and the like at a mobile terminal;
the online inspection automatically forms an online inspection list through site recording and video monitoring, meanwhile, the construction tasks are inspected by combining the audio and the photos of the construction log module, the online inspection module generates a corresponding online inspection list according to the progress management module and the plan management module, inspectors can inspect according to relevant data of construction sites uploaded in the system, inspection results are recorded into the system, and a safety supervision record is generated;
according to the on-site inspection and the on-line inspection result, the safety supervision module generates a verbal warning sheet and a rectification sheet aiming at the violation content or the content needing rectification, wherein the verbal warning sheet comprises the violation content, reasons and measures and notifying personnel; the rectification list comprises violation content, rectification measures, processing decisions, a rectification closed-loop list and notification personnel.
10. The electric power engineering management and control system of claim 1, further comprising an operation management module, wherein the operation management module comprises contract, subcontract basis, subcontract contract and bid and tender record; the operation management module is used for collecting the project contract, inputting the bidding record and carrying out centralized management on the project related materials;
the contract and subcontract module in the management and management module is used for receiving contracts of different engineering projects, the contract and subcontract can edit and summarize information aiming at the entered contract, corresponding contract lists are generated according to key information and key words of the entered contract, and the detail summary lists can be generated in a centralized manner according to different contract lists.
11. The power engineering management and control system of claim 1, further comprising a quality assessment module, wherein the quality assessment module comprises subcontractor self-assessment, company review and company spot check; the quality evaluation module is used for carrying out quality inspection and evaluation on the pictures acquired in the construction process, providing visual construction process records and realizing quality evaluation on construction teams and groups.
12. The electric power engineering management and control system of claim 1, further comprising an inspection management module, wherein the inspection management module comprises inspection quality items, inspection plans, inspection orders and inspection self-correction orders;
the patrol plan is generated according to an operation plan in the plan management module, patrol personnel of different levels are distributed according to different risk levels of patrol contents, and the patrol personnel carry out patrol of risk, quality, safety and the like; the patrol order is generated according to the construction tasks in the operation plan module;
the patrol self-correction bill is a bill for carrying out correction application aiming at the violation items in the patrol process, and after the patrol self-correction bill is generated, relevant personnel can correct and correct the contents of the patrol self-correction bill; the inspection quality item refers to specific inspection content corresponding to a quality part in the inspection process;
the inspection plan is generated according to the operation plan, the inspection content is bound with the information of a risk control module carried by the operation plan, the inspection content comprises quality inspection and risk inspection carried out on the construction process, the inspection content of the risk inspection is mutually associated with the operation plan module and the risk control module, the risk control module determines information such as risk factors, risk environments and the like of specific construction projects according to the operation plan and is bound with the inspection content to generate the inspection plan; the patrolman of the patrolman plan can generate a patrolman bill after determining, and can monitor and record patrolman operation through the patrolman bill.
13. The ideological power engineering project management and control wedding system according to claim 1, further comprising a sub-packaging enterprise information management module, wherein the module comprises a sub-packaging enterprise module, a sub-packaging enterprise personnel module and a report analysis module;
the sub-packet enterprise module comprises enterprise information, enterprise qualification and an enterprise blacklist; the enterprise information is mainly used for integrating basic information of the sub-packet enterprises and comprises enterprise information such as enterprise names, enterprise numbers, enterprise types, insurance acceptance modes, staff numbers, enterprise states and the like; the enterprise qualification comprises an enterprise name, a certificate validity period and the like; the enterprise blacklist is used for recording and sorting information of the sub-packet enterprises with bad records; the subcontracting enterprise personnel module comprehensively manages the information of all personnel, operators, special personnel and managers, and simultaneously, the module also comprises records and reminders of personnel certificate expiration, training information expiration, physical examination information expiration and insurance information expiration; the report analysis module is used for checking the content of illegal chapter behaviors and the like of the subpackage enterprises and personnel in the construction operation, and meanwhile, the module can carry out quantitative qualification checking evaluation according to the execution condition of site construction, qualification information of the subpackage enterprises and the subpackage personnel, the effective date of a related certificate and the like;
the sub-package enterprise module and the sub-package enterprise personnel module are related to the project planning module, the plan management module and the progress management module, and sub-package enterprises and sub-package personnel are distributed according to the project type, the qualification and the professional type of the sub-package enterprises and sub-package personnel.
14. The electric power engineering project management and control system according to claim 1, further comprising a tool management module, wherein the tool management module is used for managing information such as state recording, acceptance recording and acceptance reminding of tools of a sub-package enterprise; the tool management module comprises a tool state, a tool ledger, a tool purchase order, a tool acceptance order, an expired inspection and submission prompt, a tool maintenance order and a tool maintenance order;
the tool management module is associated with the sub-package enterprise module and the operation planning module, manages and records information of tools of the sub-package enterprise, and can be combined with the operation planning module to record the use condition, the state and the management condition of the tools in construction operation.
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114356268A (en) * | 2022-01-04 | 2022-04-15 | 国网浙江省电力有限公司绍兴供电公司 | Monitoring display system based on power grid operation plan and risk |
CN114565353A (en) * | 2022-02-10 | 2022-05-31 | 辉图建筑工程科技(上海)有限公司 | Engineering project safety management solution based on cloud platform |
CN115471101A (en) * | 2022-09-26 | 2022-12-13 | 国网江苏省电力有限公司南通供电分公司 | Mobile visual supervision platform |
CN115511391A (en) * | 2022-11-15 | 2022-12-23 | 临沂龙泰建设工程有限公司 | Engineering quality supervision early warning system and method based on BIM model |
CN115860675A (en) * | 2022-12-09 | 2023-03-28 | 南通睿通机电工程有限公司 | Cable laying supervisory systems based on communication engineering |
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2021
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN114356268A (en) * | 2022-01-04 | 2022-04-15 | 国网浙江省电力有限公司绍兴供电公司 | Monitoring display system based on power grid operation plan and risk |
CN114565353A (en) * | 2022-02-10 | 2022-05-31 | 辉图建筑工程科技(上海)有限公司 | Engineering project safety management solution based on cloud platform |
CN115471101A (en) * | 2022-09-26 | 2022-12-13 | 国网江苏省电力有限公司南通供电分公司 | Mobile visual supervision platform |
CN115511391A (en) * | 2022-11-15 | 2022-12-23 | 临沂龙泰建设工程有限公司 | Engineering quality supervision early warning system and method based on BIM model |
CN115511391B (en) * | 2022-11-15 | 2023-02-10 | 临沂龙泰建设工程有限公司 | Engineering quality supervision early warning system and method based on BIM model |
CN115860675A (en) * | 2022-12-09 | 2023-03-28 | 南通睿通机电工程有限公司 | Cable laying supervisory systems based on communication engineering |
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