CN113947366A - Supervision emergency management system based on mobile internet technology - Google Patents

Abstract

The invention relates to the technical field of computer application, and discloses a supervision emergency management system based on a mobile internet technology; the system comprises an emergency response issuing module, an emergency sign-in module, a task delegation module and an emergency information reporting module; the emergency response issuing module is used for filling and sending an emergency response sheet; the emergency sign-in module is used for logging in on-site hidden danger investigation information while signing in on site, generating an emergency sign-in record and a hidden danger investigation order, and sending the emergency sign-in record and the hidden danger investigation order to corresponding departments or personnel; and the task delegation module is used for performing task delegation according to the received emergency sign-in record and the hidden danger investigation order and generating a corresponding task delegation order. The invention realizes the reduction of the time of emergency response and improves the working efficiency of emergency management.

Description

Supervision emergency management system based on mobile internet technology

Technical Field

The invention relates to the technical field of computer application, in particular to a supervision emergency management system based on a mobile internet technology.

Background

At present, the emergency management system works in the engineering construction field, and the emergency information technology is widely applied to the engineering supervision aspect, so that rich experience is accumulated in the aspects of development, use, maintenance and the like of related software. In China, although some research units carry out development work of engineering supervision computer-aided software and obtain certain achievement, the distance comprehensively realizes the engineering supervision work and supports engineering supervision decision-making, due to the restriction of each part of conditions, and a large gap exists. The current emergency management software mainly records the processing result of an event through an electronic form in a mode of registering after the emergency event is processed, and does not research and develop related flow management and control on the whole emergency process, so that the work of managing and controlling the process is relatively deficient.

Events such as flood, rainstorm, typhoon, sanitary epidemic and the like occur frequently every year in the Guangdong area, and the project construction supervision project starts an emergency work plan according to emergency. When the relevant events are responded at the second level or above, according to the emergency response in-place standard, the responsible personnel of each project need to go to the offices of each department or project department for watching, and the supervision personnel at each level need to carry out relevant watching or in-place work according to the labels. During and after the emergency response period, on-site emergency inspection and corresponding work information (inspection table) of each department or project department are collected in the modes of OAK, WeChat or mail, and the like, and then the material data are assembled into a table through manual operation of the Ministry of safety and quality, and are reported to the superior unit in a unified mode. In addition, whether the on-site emergency response measures meet the requirements or not needs headquarter management personnel to drive to the on-site to check.

With the continuous improvement of the internal management level of enterprises, the requirement of dealing with emergency situations also continuously rises. From the practice of construction supervision at the present stage, supervision personnel need to handle emergency situations in actual emergency management work, and also need to carry out high-efficient processing to complex information, seriously influences work efficiency on the premise of lacking tool support, and is difficult to reach timeliness, integrality and accuracy of information processing. Therefore, it is urgently needed to establish engineering supervision emergency management software by using advanced information technology through a technical means of updating supervision work so as to improve the work efficiency of emergency management.

In the existing emergency management mode, the main disadvantages include: the engineering points are various and wide, the working efficiency is low due to personnel dispersion, difficult project management and control and the like; the field management and control mode is old, and the management means is single; the cost is increased year by year, and the difficulty of cost management is increased; the management effect is poor, and the filing timeliness is poor; long time consuming statistical analysis, etc.

Disclosure of Invention

The invention provides a supervision emergency management system based on a mobile internet technology, which reduces the time of emergency response and improves the working efficiency of emergency management.

An embodiment of the invention provides a supervision emergency management system based on mobile internet technology,

the system comprises an emergency response issuing module, an emergency sign-in module, a task delegation module and an emergency information reporting module;

the emergency response issuing module is used for filling and sending an emergency response sheet; the emergency response sheet comprises publisher information, emergency grades, emergency personnel lists and emergency event descriptions;

the emergency sign-in module is used for logging in on-site hidden danger investigation information while signing in on site, generating an emergency sign-in record and a hidden danger investigation order, and sending the emergency sign-in record and the hidden danger investigation order to corresponding departments or personnel;

the task delegation module is used for performing task delegation according to the received emergency sign-in record and the hidden danger troubleshooting list and generating a corresponding task delegation list;

the emergency information reporting module is used for counting emergency response information, generating an emergency information report and sending the emergency information report to a corresponding department or personnel.

Further, generating an emergency sign-in record and a hidden danger investigation order specifically includes:

the system automatically acquires and displays the sign-in positioning information, sign-in personnel information, sign-in project information, emergency response event description and sign-in time of emergency personnel on an emergency sign-in page; after the attendance personnel upload the on-site shot attendance pictures on the emergency attendance page, the system automatically generates attendance records; the system acquires check-in item information according to the check-in positioning information and the check-in personnel information;

after uploading a check-in photo shot on site, the check-in photo enters a hidden danger troubleshooting page, and a system automatically acquires and displays hidden danger troubleshooting time, hidden danger troubleshooting personnel information, a project part to which the hidden danger belongs, an engineering name to which the hidden danger belongs, emergency response event description and rectification measures on the hidden danger troubleshooting page;

the system automatically generates a hidden danger investigation order after the sign-in personnel input the hidden danger description, the hidden danger type and the hidden danger grade on the hidden danger investigation page according to the actual situation on site and upload a hidden danger picture shot on site;

and the system associates the check-in record with the hidden danger investigation order and then stores the associated record in a database.

Further, the user configures the emergency level in the system according to relevant enterprise regulations or enterprise files, and configures the hidden danger level in the system according to relevant legal files;

when configuring and filling in the emergency level, a user can check emergency level descriptions in the system, and the emergency level descriptions show corresponding contents of the related enterprise regulations or enterprise files;

when configuring and filling in the hidden danger level, a user can check a hidden danger level description in a system, and the hidden danger level description displays corresponding contents of the related legal document.

The system further comprises an emergency response summarizing module and a hidden danger troubleshooting summarizing module, wherein the emergency response summarizing module is used for summarizing emergency response information, generating an emergency response report and sending the emergency response report to a corresponding department or personnel;

the hidden danger troubleshooting summarizing module is used for summarizing hidden danger troubleshooting information, generating a hidden danger troubleshooting report and sending the hidden danger troubleshooting report to a corresponding department or personnel.

Further, the generating an emergency response report and sending the emergency response report to a corresponding department or personnel specifically include:

inputting query conditions to query corresponding emergency response information, determining that the query conditions and the query results are correct, then exporting an emergency response report corresponding to the query conditions, or determining that the query conditions and the query results are correct, then previewing the emergency response report corresponding to the query conditions, and sending the emergency response report to corresponding departments or personnel after determining that the emergency response report is correct;

the query conditions include: responding to the time range of issuing, emergency level, issuer, number of attendance, major hidden danger number and general hidden danger number.

Further, the generating a hidden danger troubleshooting report and sending the hidden danger troubleshooting report to a corresponding department or personnel specifically include:

inputting query conditions to query corresponding hidden danger troubleshooting information, guiding out a hidden danger troubleshooting report corresponding to the query conditions after confirming that the query conditions and the query results are correct, or previewing the hidden danger troubleshooting report corresponding to the query conditions after confirming that the query conditions and the query results are correct, and sending the hidden danger troubleshooting report to a corresponding department or personnel after confirming that the hidden danger troubleshooting report is correct;

the query conditions include: and (4) checking the time range, the hidden danger types and the item department of information distribution.

The system further comprises a sign-in and hidden danger statistics module, wherein the sign-in and hidden danger statistics module is used for carrying out correlation according to the sign-in record and the hidden danger investigation order and then storing the correlation in a database, and carrying out statistics on the sign-in times corresponding to emergency response events and the times of filling the hidden danger investigation order.

Further, the method for counting the emergency response information and generating the emergency information report specifically includes:

after the time range, the emergency content and the item part of the emergency response release are selected, the page automatically counts the number of items of a main network under construction, the number of items of a distribution network under construction, the total number of the items of the item part, the total number of vehicles of the item part, the number of items of a main network for investigation, the number of items of the distribution network for investigation, the number of emergency movement out, the number of vehicles for emergency movement out, the number of major hidden danger items, the number of general hidden danger items, the number of hidden danger items for taking measures to eliminate the hidden danger items and the number of residual hidden danger items, and an emergency information report table is derived after the inquiry condition and the statistical information are confirmed to be correct.

Further, each module may be configured with one or more of a plurality of common functions as desired; the common functions include:

the role authority function is used for endowing different roles corresponding to different operation authorities to all users of the system;

the document approval function is used for approving the document under the name of the user;

the process management function is used for configuring and displaying different approval processes for different documents;

the accessory uploading function is used for uploading accessory information required by the current service;

the system comprises a batch import function and a batch generation function, wherein the batch import function is used for importing the service data required by the current service in batches, and the system generates corresponding documents in batches according to the imported service data;

the row operation function is used for performing operations of adding rows, cancelling rows, deleting rows and clearing rows aiming at the table data of the page when the data is input into the page;

the short message notification function is used for sending the bill information to the mobile equipment of the corresponding personnel through a short message while the system generates the bill; the documents comprise emergency response documents, hidden danger investigation documents, check-in records and task assignment documents.

The embodiment of the invention has the following beneficial effects:

the invention provides a supervision emergency management system based on a mobile internet technology, which rapidly notifies relevant emergency personnel of an emergency event at the first time through an emergency response issuing module, and the emergency personnel can know the detailed information of the emergency event according to a received emergency response list and go to an emergency site according to the information transmitted by the emergency response list; when the emergency personnel arrive at an emergency site, the emergency attendance module is used for carrying out site attendance, and recording and reporting the hidden danger condition of the site in real time; the manager checks the reported field sign-in information and field hidden danger information through the task delegation module, fills a task delegation list according to the field sign-in information and the field hidden danger information, and sends the task delegation list to corresponding personnel; the method can also report the emergency response statistical information in a period of time to an upper-level unit through an emergency information reporting module; therefore, when an emergency event occurs, the emergency information can be rapidly notified to corresponding emergency personnel, and the emergency personnel can rapidly respond to the emergency information and arrive at an emergency site; when the emergency personnel reach an emergency site, the system can check in and feed back the site hidden danger information in real time, and the manager can know the personnel information which can be arranged on the site and the hidden danger condition which needs to be processed according to the check-in information and the hidden danger information which are fed back in real time, make decision and deploy according to the personnel information which can be arranged and the hidden danger condition which needs to be processed, and issue emergency measures in time through a task delegation order; therefore, the emergency response time is greatly shortened, and the working efficiency of emergency management is improved.

Drawings

FIG. 1 is a diagram of an emergency response single page provided by an embodiment of the present invention;

FIG. 2 is a diagram of an emergency response table page provided by an embodiment of the invention;

FIG. 3 is a diagram of an emergency check-in page provided by an embodiment of the invention;

fig. 4 is a diagram illustrating hidden danger detection according to an embodiment of the present invention;

FIG. 5 is a diagram of an emergency information application page provided by an embodiment of the present invention;

FIG. 6 is a block diagram of functional modules according to an embodiment of the present invention;

Detailed Description

The technical solutions in the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, 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 invention.

The supervision emergency management system based on the mobile internet technology comprises an emergency response issuing module, an emergency sign-in module, a task delegation module and an emergency information reporting module, wherein the emergency response issuing module is used for issuing a task to a user;

the emergency response issuing module is used for filling and sending an emergency response sheet; the emergency response sheet comprises publisher information, emergency grades, emergency personnel lists and emergency event descriptions;

the emergency sign-in module is used for logging in on-site hidden danger investigation information while signing in on site, generating an emergency sign-in record and a hidden danger investigation order, and sending the emergency sign-in record and the hidden danger investigation order to corresponding departments or personnel;

the task delegation module is used for performing task delegation according to the received emergency sign-in record and the hidden danger troubleshooting list and generating a corresponding task delegation list;

the emergency information reporting module is used for counting emergency response information, generating an emergency information report and sending the emergency information report to a corresponding department or personnel.

As one embodiment, the generating of the emergency check-in record and the hidden danger investigation order specifically includes:

the system automatically acquires and displays the sign-in positioning information, sign-in personnel information, sign-in project information, emergency response event description and sign-in time of emergency personnel on an emergency sign-in page; after the attendance personnel upload the on-site shot attendance pictures on the emergency attendance page, the system automatically generates attendance records; the system acquires check-in item information according to the check-in positioning information and the check-in personnel information;

after uploading a check-in photo shot on site, the check-in photo enters a hidden danger troubleshooting page, and a system automatically acquires and displays hidden danger troubleshooting time, hidden danger troubleshooting personnel information, a project part to which the hidden danger belongs, an engineering name to which the hidden danger belongs, emergency response event description and rectification measures on the hidden danger troubleshooting page;

the system automatically generates a hidden danger investigation order after the sign-in personnel input the hidden danger description, the hidden danger type and the hidden danger grade on the hidden danger investigation page according to the actual situation on site and upload a hidden danger picture shot on site;

and the system associates the check-in record with the hidden danger investigation order and then stores the associated record in a database.

As one embodiment, the user configures the emergency level in the system according to the relevant enterprise regulations or enterprise files, and configures the hidden danger level in the system according to the relevant legal files;

when configuring and filling in the emergency level, a user can check emergency level descriptions in the system, and the emergency level descriptions show corresponding contents of the related enterprise regulations or enterprise files;

when configuring and filling in the hidden danger level, a user can check a hidden danger level description in a system, and the hidden danger level description displays corresponding contents of the related legal document.

The emergency response collecting module is used for collecting emergency response information, generating an emergency response report and sending the emergency response report to a corresponding department or personnel;

the hidden danger troubleshooting summarizing module is used for summarizing hidden danger troubleshooting information, generating a hidden danger troubleshooting report and sending the hidden danger troubleshooting report to a corresponding department or personnel.

As one embodiment, the generating an emergency response report and sending the emergency response report to a corresponding department or person specifically includes:

inputting query conditions to query corresponding emergency response information, determining that the query conditions and the query results are correct, then exporting an emergency response report corresponding to the query conditions, or determining that the query conditions and the query results are correct, then previewing the emergency response report corresponding to the query conditions, and sending the emergency response report to corresponding departments or personnel after determining that the emergency response report is correct;

the query conditions include: responding to the time range of issuing, emergency level, issuer, number of attendance, major hidden danger number and general hidden danger number.

As one embodiment, the generating a hidden danger troubleshooting report and sending the hidden danger troubleshooting report to a corresponding department or person specifically includes:

inputting query conditions to query corresponding hidden danger troubleshooting information, guiding out a hidden danger troubleshooting report corresponding to the query conditions after confirming that the query conditions and the query results are correct, or previewing the hidden danger troubleshooting report corresponding to the query conditions after confirming that the query conditions and the query results are correct, and sending the hidden danger troubleshooting report to a corresponding department or personnel after confirming that the hidden danger troubleshooting report is correct;

the query conditions include: and (4) checking the time range, the hidden danger types and the item department of information distribution.

The system comprises a check-in and hidden danger statistics module, wherein the check-in and hidden danger statistics module is used for associating the check-in records with hidden danger investigation orders and storing the records in a database, and counting the check-in times corresponding to emergency response events and the hidden danger investigation orders filling times.

As one embodiment, the counting emergency response information and generating an emergency information report specifically includes:

after the time range, the emergency content and the item part of the emergency response release are selected, the page automatically counts the number of items of a main network under construction, the number of items of a distribution network under construction, the total number of the items of the item part, the total number of vehicles of the item part, the number of items of a main network for investigation, the number of items of the distribution network for investigation, the number of emergency movement out, the number of vehicles for emergency movement out, the number of major hidden danger items, the number of general hidden danger items, the number of hidden danger items for taking measures to eliminate the hidden danger items and the number of residual hidden danger items, and an emergency information report table is derived after the inquiry condition and the statistical information are confirmed to be correct.

As an example, each module may be configured with one or more of a plurality of common functions as needed; the common functions include:

the role authority function is used for endowing different roles corresponding to different operation authorities to all users of the system;

the document approval function is used for approving the document under the name of the user;

the process management function is used for configuring and displaying different approval processes for different documents;

the accessory uploading function is used for uploading accessory information required by the current service;

the system comprises a batch import function and a batch generation function, wherein the batch import function is used for importing the service data required by the current service in batches, and the system generates corresponding documents in batches according to the imported service data;

the row operation function is used for performing operations of adding rows, cancelling rows, deleting rows and clearing rows aiming at the table data of the page when the data is input into the page;

the short message notification function is used for sending the bill information to the mobile equipment of the corresponding personnel through a short message while the system generates the bill; the documents comprise emergency response documents, hidden danger investigation documents, check-in records and task assignment documents.

More detailed examples are as follows:

as shown in fig. 6, a supervision emergency management system based on mobile internet technology includes an emergency response issuing module, an emergency sign-in module, a task delegation module, an emergency information reporting module, an emergency response summarizing module, a hidden danger investigation summarizing module, and a sign-in and hidden danger counting module.

As shown in fig. 1, the emergency response issuing module is configured to fill in and send an emergency response sheet; the emergency response sheet comprises publisher information (corresponding to the publisher of fig. 1), an emergency level, a list of emergency personnel (corresponding to the notifier of fig. 1), and an emergency event description (corresponding to the emergency content of fig. 1);

as shown in fig. 2, the issued or saved emergency response list can be viewed on the emergency response table page, and the emergency response list can be notified to each person by operating the end button of the operation bar, or edited again by operating the edit button, or sent to each emergency person by the issue button.

As shown in fig. 3, the emergency sign-in module is used for entering the hidden danger investigation information of the site while checking in after an emergency person arrives at the emergency site, and generating an emergency sign-in record and a hidden danger investigation order, wherein the sign-in content includes a sign-in position, a sign-in item, a sign-in time, sign-in persons, emergency content and site in-place pictures; the content of the hidden danger investigation order comprises hidden danger types, hidden danger descriptions, scene hidden danger pictures and rectification measures;

the emergency sign-in record and the hidden danger investigation list are generated, and the method specifically comprises the following steps:

the system automatically acquires and displays the check-in positioning information (corresponding to the check-in position in the figure 3), the check-in personnel information, the check-in project information, the emergency response event description (corresponding to the emergency content in the figure 3) and the check-in time of the emergency personnel on an emergency check-in page; after the check-in personnel upload the check-in photos shot on site (corresponding to the site in-place pictures in the figure 3) on the emergency check-in page, the system automatically generates check-in records; the system queries a database according to the check-in positioning information and the check-in personnel information to acquire check-in item information; the system acquires the emergency response event description of the emergency check-in page from the emergency event description of the emergency response list.

As shown in fig. 4, after uploading a check-in photo shot on site, the check-in person enters a hidden danger troubleshooting page, and the system automatically acquires and displays hidden danger troubleshooting time, hidden danger troubleshooting person information, a hidden danger item part, a hidden danger project name, emergency response event description (corresponding to emergency content in fig. 4), and rectification measures on the hidden danger troubleshooting page;

and after the attendance personnel input the hidden danger description and the hidden danger type into the hidden danger investigation page according to the actual situation on site and upload the hidden danger picture shot on site, the system automatically generates a hidden danger investigation order.

As one embodiment, after the attendance personnel input the hidden danger level on the hidden danger investigation page according to the actual situation on site and upload the hidden danger picture shot on site, the system automatically generates a hidden danger investigation order;

as one embodiment, the user configures the emergency level in the system according to the relevant enterprise regulations or enterprise files, and configures the hidden danger level in the system according to the relevant legal files;

when configuring and filling in the emergency level, a user can check emergency level descriptions in the system, and the emergency level descriptions show corresponding contents of the related enterprise regulations or enterprise files;

when configuring and filling in the hidden danger level, a user can check a hidden danger level description in a system, and the hidden danger level description displays corresponding contents of the related legal document.

And the system associates the check-in record with the hidden danger investigation order and then stores the associated record in a database.

The task delegation module carries out task delegation according to the received emergency sign-in record and the hidden danger troubleshooting list and generates a corresponding task delegation list; and the management personnel receive the emergency sign-in records and the hidden danger checking orders fed back by the emergency personnel from the site, analyze the site hidden danger information, perform task delegation on the site emergency personnel or newly added emergency personnel according to the site personnel in-place condition and send the task delegation orders to all the emergency personnel.

As shown in fig. 5, the emergency information reporting module is configured to count emergency response information, generate an emergency information report, and send the emergency information report to a corresponding department or person;

when a user creates an emergency information report form on a page, after selecting the time range of emergency response release, emergency content and item part (for emergency treatment), the following information is automatically brought out by the page: the number of main network items under construction, the number of distribution network items under construction, the total number of items, the total number of vehicles in the items, the number of main network items for troubleshooting, the number of distribution network items for troubleshooting, the number of emergency trips, the number of vehicles for emergency trips, the number of major hidden danger items, the number of general hidden danger items, the number of hidden danger items for taking measures to eliminate and the number of residual hidden danger items, and a newly-built emergency information report table is stored or derived after a user confirms that the query conditions of a page and the brought-out information are correct.

As one embodiment, after the system stores the newly-built emergency information report form, the user selects a department or a person to be sent, and the system automatically sends the emergency information report form to the corresponding department or person.

The emergency response summarizing module is used for summarizing emergency response information, generating an emergency response report and sending the emergency response report to corresponding departments or personnel;

as one embodiment, corresponding emergency response information is inquired when a query condition is input on a response content summary page, a response content summary report is exported after a user confirms that the query condition and the query result are correct, or the response content summary report is previewed on a page after the user confirms that the query condition and the query result are correct, and the emergency response report is sent to a corresponding department or personnel after confirming that the response content summary report is correct; the query conditions include: responding to the time range of release, emergency level, the number of the release persons, the number of the sign-in persons, the number of major hidden dangers and the number of general hidden dangers;

the response content summary report is used for summarizing the issued emergency notice; the response content summary report comprises an emergency response subject, emergency event descriptions, emergency levels, emergency response release time, publishers, total number of people signing in, major hidden danger number and general hidden danger number, wherein the emergency response subject is composed of the emergency response release time, the emergency levels and part of the emergency event descriptions, such as 20190131_ third-level _ leakage emergency response notification.

The hidden danger troubleshooting summarizing module is used for summarizing hidden danger troubleshooting information, generating a hidden danger troubleshooting report and sending the hidden danger troubleshooting report to a corresponding department or personnel;

as one embodiment, the hidden danger troubleshooting summary page inputs query conditions, queries hidden danger troubleshooting information meeting the conditions, leads out a hidden danger troubleshooting summary report after a user confirms that the query conditions and the query results are correct, previews the hidden danger troubleshooting summary report on the page after the user confirms that the query conditions and the query results are correct, and sends the report to a corresponding department or personnel after confirming that the hidden danger troubleshooting summary report is correct; the query conditions include: the time range, the hidden danger types, the hidden danger grades and the item departments of the hidden danger troubleshooting information release are checked;

the hidden danger investigation summary report is used for summarizing all filled hidden danger investigation lists, and statistical data comprises uncommitted and submitted lists.

The hidden danger troubleshooting summary report comprises a project department, emergency release time, emergency content, project names, hidden danger description and hidden danger levels.

The sign-in and hidden danger counting module is used for correlating the sign-in records and hidden danger investigation statement and storing the records in a database, and counting the sign-in times corresponding to emergency response events and the times of filling the hidden danger investigation statement;

as one embodiment, corresponding sign-in and hidden danger information is inquired out when a sign-in and hidden danger statistical page inputs an inquiry condition, a user guides out a sign-in and hidden danger statistical report after confirming that the inquiry condition and the inquiry result are correct or previews the sign-in and hidden danger statistical report on the page after confirming that the inquiry condition and the inquiry result are correct, and the report is sent to a corresponding department or personnel after confirming that the sign-in and hidden danger statistical report are correct; the query conditions include: hidden danger release time, hidden danger contents (corresponding to hidden danger description recorded in the hidden danger investigation order), departments for processing hidden dangers, check-in personnel, check-in times and hidden danger table number filling;

the sign-in and hidden danger statistical report is used for counting the sign-in times of personnel in the emergency notification and the times of filling in a hidden danger checking list; the contents recorded in the check-in and hidden danger statistical report form comprise emergency response release time, release contents (namely emergency event description), departments, check-in personnel, check-in and hidden danger checking list filling times.

As an example, each module may be configured with one or more of a plurality of common functions as needed; the common functions include:

the role authority function is used for endowing different roles corresponding to different operation authorities to all users of the system;

the document approval function is used for approving the document under the name of the user;

the process management function is used for configuring and displaying different approval processes for different documents;

the accessory uploading function is used for uploading accessory information required by the current service;

the system comprises a batch import function and a batch generation function, wherein the batch import function is used for importing the service data required by the current service in batches, and the system generates corresponding documents in batches according to the imported service data;

the row operation function is used for performing operations of adding rows, cancelling rows, deleting rows and clearing rows aiming at the table data of the page when the data is input into the page;

the short message notification function is used for sending the bill information to the mobile equipment of the corresponding personnel through a short message while the system generates the bill; the documents comprise emergency response documents, hidden danger investigation documents, check-in records and task assignment documents.

The embodiment improves the releasing and responding capability to the emergent production event and improves the resource allocation of the emergent reaction. The embodiment covers the whole process of emergency management, and comprises functions of emergency release, emergency response, emergency sign-in, hidden danger point investigation and the like, and by applying technical means and methods, emergencies are effectively prevented and processed, loss is reduced, a stable dynamic system is recovered, and enterprise response and management and control capabilities are improved.

The enterprise has to change the traditional management mode to comprehensively improve the market competitiveness, combine the emergency management with the management information software, and take the process and big data analysis as the technical means to realize the standardization, programming and lean of the supervision project emergency management.

The emergency processing method can be implemented by starting with the release of an emergency event, establishing an event library according to emergency categories, taking an emergency command organization as a core, automatically sending each emergency processing personnel according to an emergency processing scheme after the event is released, enabling the personnel to arrive at an emergency site for signing in, then filling in emergency response operation information according to an operation process, developing an emergency processing flow, filling in an event processing progress condition by related personnel, feeding back information and stage data to a command center according to flow nodes, and relating each node to each stage. The emergency process data acquisition is carried out by taking the event as a main line, the process information can be shared with a command center in real time by filling in an electronic form, the emergency hidden danger investigation is realized, and field emergency personnel can investigate and record all hidden danger points according to the analysis of the hidden danger points. Finally, through the attendance hidden danger statistical table, the emergency command mechanism can visually know the field operation condition and make a management decision in time. The emergency command organization issues the emergency command work group through the telephone, the short message and the report, and then the emergency command work group sends the emergency command work group to the project department (subsection) and finally transmits the emergency command work group to the first line personnel.

According to the method and the system, the data of each link are correlated, so that the project data has traceability and accuracy, and the process information management and control in a real sense are realized. After receiving the emergency response, field personnel sign in at the project site by using the mobile phone APP, check the hidden danger scheduling list cured by using the APP, check the site condition, submit after the check is finished, and check the form at the system webpage end. And inquiring and exporting related report information according to the summary of the hidden danger investigation form by the hidden danger investigation summary table.

The embodiment provides real-time mobile application and data analysis functions, can help enterprises to better analyze data and make operation decisions, is beneficial to development of the enterprises, and achieves more complex business targets.

The emergency mechanism has the advantages that the emergency mechanism with unified command, complete functions, sensitive response and high operation efficiency is built, the capability of handling the emergency of an enterprise is improved, the field inspection time of managers is shortened, the management cost is saved, and the management coverage is increased.

It should be noted that the above-described system embodiments are merely illustrative, where the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. In addition, in the drawings of the embodiment of the system provided by the present invention, the connection relationship between the modules indicates that there is a communication connection between them, and may be specifically implemented as one or more communication buses or signal lines. One of ordinary skill in the art can understand and implement it without inventive effort.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention.

It will be understood by those skilled in the art that all or part of the processes of the above embodiments may be implemented by hardware related to instructions of a computer program, and the computer program may be stored in a computer readable storage medium, and when executed, may include the processes of the above embodiments. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

Claims (9)

1. A supervision emergency management system based on a mobile internet technology is characterized by comprising an emergency response issuing module, an emergency sign-in module, a task delegation module and an emergency information reporting module;

the emergency response issuing module is used for filling and sending an emergency response sheet; the emergency response sheet comprises publisher information, emergency grades, emergency personnel lists and emergency event descriptions;

the emergency sign-in module is used for logging in on-site hidden danger investigation information while signing in on site, generating an emergency sign-in record and a hidden danger investigation order, and sending the emergency sign-in record and the hidden danger investigation order to corresponding departments or personnel;

the task delegation module is used for performing task delegation according to the received emergency sign-in record and the hidden danger troubleshooting list and generating a corresponding task delegation list;

the emergency information reporting module is used for counting emergency response information, generating an emergency information report and sending the emergency information report to a corresponding department or personnel.

2. The proctoring emergency management system based on mobile internet technology as claimed in claim 1, wherein the generating of the emergency check-in record and the hidden danger investigation order specifically comprises:

the system automatically acquires and displays the sign-in positioning information, sign-in personnel information, sign-in project information, emergency response event description and sign-in time of emergency personnel on an emergency sign-in page; after the attendance personnel upload the on-site shot attendance pictures on the emergency attendance page, the system automatically generates attendance records; the system acquires check-in item information according to the check-in positioning information and the check-in personnel information;

after uploading a check-in photo shot on site, the check-in photo enters a hidden danger troubleshooting page, and a system automatically acquires and displays hidden danger troubleshooting time, hidden danger troubleshooting personnel information, a project part to which the hidden danger belongs, an engineering name to which the hidden danger belongs, emergency response event description and rectification measures on the hidden danger troubleshooting page;

the system automatically generates a hidden danger investigation order after the sign-in personnel input the hidden danger description, the hidden danger type and the hidden danger grade on the hidden danger investigation page according to the actual situation on site and upload a hidden danger picture shot on site;

and the system associates the check-in record with the hidden danger investigation order and then stores the associated record in a database.

3. The mobile internet technology-based proctoring emergency management system as claimed in claim 2, wherein a user can view emergency rating descriptions showing the corresponding contents of the relevant business provision or business document at the system while configuring and filling in the emergency rating;

when configuring and filling in the hidden danger level, a user can check a hidden danger level description in a system, and the hidden danger level description displays corresponding contents of the related legal document.

4. The mobile internet technology-based supervision emergency management system according to claim 3, further comprising an emergency response summarizing module and a hidden danger troubleshooting summarizing module, wherein the emergency response summarizing module is configured to summarize emergency response information, generate an emergency response report, and send the emergency response report to a corresponding department or person;

the hidden danger troubleshooting summarizing module is used for summarizing hidden danger troubleshooting information, generating a hidden danger troubleshooting report and sending the hidden danger troubleshooting report to a corresponding department or personnel.

5. The proctoring emergency management system based on mobile internet technology as claimed in claim 4, wherein the generating of the emergency response report and the sending of the emergency response report to the corresponding department or personnel specifically include:

inputting query conditions to query corresponding emergency response information, determining that the query conditions and the query results are correct, then exporting an emergency response report corresponding to the query conditions, or determining that the query conditions and the query results are correct, then previewing the emergency response report corresponding to the query conditions, and sending the emergency response report to corresponding departments or personnel after determining that the emergency response report is correct;

the query conditions include: responding to the time range of issuing, emergency level, issuer, number of attendance, major hidden danger number and general hidden danger number.

6. The mobile internet technology-based supervision emergency management system according to claim 5, wherein the generating a hidden danger troubleshooting report and sending the hidden danger troubleshooting report to a corresponding department or person specifically comprises:

inputting query conditions to query corresponding hidden danger troubleshooting information, guiding out a hidden danger troubleshooting report corresponding to the query conditions after confirming that the query conditions and the query results are correct, or previewing the hidden danger troubleshooting report corresponding to the query conditions after confirming that the query conditions and the query results are correct, and sending the hidden danger troubleshooting report to a corresponding department or personnel after confirming that the hidden danger troubleshooting report is correct;

the query conditions include: and (4) checking the time range, the hidden danger types and the item department of information distribution.

7. The proctoring emergency management system based on mobile internet technology as claimed in claim 6, further comprising a check-in and hidden danger statistics module, wherein the check-in and hidden danger statistics module is configured to perform correlation between the check-in record and the hidden danger investigation order and then store the correlation in a database, and perform statistics on check-in times and hidden danger investigation order filling times corresponding to emergency response events.

8. The proctoring emergency management system based on mobile internet technology as claimed in claim 7, wherein the statistics of emergency response information and the generation of emergency information reports specifically include:

after the time range, the emergency content and the item part of the emergency response release are selected, the page automatically counts the number of items of a main network under construction, the number of items of a distribution network under construction, the total number of the items of the item part, the total number of vehicles of the item part, the number of items of a main network for investigation, the number of items of the distribution network for investigation, the number of emergency movement out, the number of vehicles for emergency movement out, the number of major hidden danger items, the number of general hidden danger items, the number of hidden danger items for taking measures to eliminate the hidden danger items and the number of residual hidden danger items, and an emergency information report table is derived after the inquiry condition and the statistical information are confirmed to be correct.

9. The mobile internet technology-based proctoring emergency management system according to any one of claims 1 to 8, wherein each module can be configured with one or more of a plurality of common functions as required; the common functions include:

the role authority function is used for endowing different roles corresponding to different operation authorities to all users of the system;

the document approval function is used for approving the document under the name of the user;

the process management function is used for configuring and displaying different approval processes for different documents;

the accessory uploading function is used for uploading accessory information required by the current service;

the system comprises a batch import function and a batch generation function, wherein the batch import function is used for importing the service data required by the current service in batches, and the system generates corresponding documents in batches according to the imported service data;

the row operation function is used for performing operations of adding rows, cancelling rows, deleting rows and clearing rows aiming at the table data of the page when the data is input into the page;

the short message notification function is used for sending the bill information to the mobile equipment of the corresponding personnel through a short message while the system generates the bill; the documents comprise emergency response documents, hidden danger investigation documents, check-in records and task assignment documents.

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