CN113627872A - Production safety accident scene investigation information acquisition system and method - Google Patents

Abstract

The invention relates to the technical field of information processing, and discloses a survey information acquisition system and a method for a production safety accident site, aiming at the current situation that the existing safety accident survey acquisition generated in China is in a traditional acquisition mode, and the survey record, the survey drawing and the preliminary survey report are all made by manual input, and the information and the intellectualization are lacked.

Description

Production safety accident scene investigation information acquisition system and method

Technical Field

The invention relates to the technical field of information processing, in particular to a production safety accident scene investigation information acquisition system and method.

Background

The traditional manual investigation method is adopted in the national production safety accident investigation field at present, no informatization technical scheme for producing safety accidents exists at present, and the existing site investigation is that after an accident occurs, investigators go to an accident site, and take pictures, manually make site investigation notes by using a computer and manually make investigation drawings.

The traditional method for the site investigation of the production safety accidents has low investigation efficiency and low investigation quality, and fixed evidences at the first time are not standard and incomplete, thereby bringing great trouble and difficulty to later-stage accident investigation.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

The invention mainly aims to provide a production safety accident site investigation information acquisition system and a production safety accident site investigation information acquisition method, and aims to solve the technical problem that in the prior art, the investigation efficiency is low due to the manual acquisition mode of production safety accident investigation information manually.

In order to achieve the above object, the present invention provides a production safety accident site investigation information acquisition system, comprising: the system comprises a field reconnaissance module and a reconnaissance query module;

the site survey module is used for displaying a site survey page according to a survey command when the survey command is received;

the site survey module is also used for receiving basic information and site survey data input by a user according to the site survey page and acquiring survey data and a plane sketch map related to the current accident;

the site reconnaissance module is further used for generating a reconnaissance record according to the basic information, the site reconnaissance data, the reconnaissance data and the planar sketch;

and the survey query module is used for determining a corresponding survey record to be selected according to the survey record query instruction and displaying the survey record to be selected when the survey record query instruction is received.

Optionally, the site survey module is further configured to, when receiving a basic information entry instruction input by a user according to the site survey page, display a basic information page according to the basic information entry instruction, and receive basic information input by the user according to the basic information page;

the site survey module is also used for displaying a site survey page according to the site survey input instruction and receiving site survey data input by a user according to the site survey page when the site survey input instruction input by the user according to the site survey page is received;

the site primary surveying module is further used for displaying a surveying data page according to the surveying data entry instruction when receiving a surveying data entry instruction input by a user according to the site primary surveying page, acquiring surveying data related to a current accident, and displaying the surveying data in the surveying data page;

the site survey module is further used for calling a drawing plug-in according to the drawing instruction when receiving the drawing instruction input by a user according to the site survey page, displaying a drawing interface corresponding to the drawing plug-in, detecting the drawing operation performed by the user based on the drawing interface, generating a plane sketch according to the drawing operation, and displaying the plane sketch in the plane sketch page;

the site reconnaissance module is further configured to generate a reconnaissance report according to the basic information, the site reconnaissance data, the reconnaissance data, and the planar sketch, and generate a reconnaissance record according to the reconnaissance report.

Optionally, the survey data page comprises: a weather data sub-page and a survey data photo sub-page, the survey data including weather data and survey picture data, the weather data including: at least one of weather conditions, temperature, humidity, wind direction, and wind force, the reconnaissance picture data comprising: measuring a data photo;

the scene reconnaissance module is further configured to acquire an accident occurrence time and an accident occurrence place corresponding to the current accident, search weather data corresponding to the accident occurrence time and the accident occurrence place, and display the weather data in the weather data sub-page;

the field reconnaissance module is also used for receiving the measured data photo input by the user in the measured data photo sub-page and displaying the measured data photo in the measured data photo sub-page.

Optionally, the survey query module is configured to, when a survey record query instruction is received, display a survey record page according to the survey record query instruction, traverse a survey record, use the traversed survey record as a to-be-selected survey record, and display the to-be-selected survey record in the survey record page;

the survey query module is further used for determining a corresponding survey record according to a survey record instruction when receiving the survey record instruction input by a user according to a survey record page, and displaying a preliminary survey report corresponding to the survey record instruction;

the survey query module is further used for determining a corresponding survey record according to the record deleting instruction and deleting the survey record corresponding to the record deleting instruction when the record deleting instruction input by a user according to a survey record page is received;

and the survey query module is also used for determining the corresponding survey record according to the editing record instruction when receiving the editing record instruction input by the user according to the survey record page, and jumping to the site initial survey page corresponding to the survey record corresponding to the editing record instruction so as to edit the content by the user.

Optionally, the system further comprises: the system comprises a survey guidance module and a field reconnaissance module;

the system comprises an investigation guiding module, a data processing module and a data processing module, wherein the investigation guiding module is used for searching a preset typical accident scene investigation guide when an investigation guiding instruction is received, generating an investigation guiding page according to the typical accident scene investigation guide and displaying the investigation guiding page;

the site reconnaissance module is used for displaying a selected page according to a site reconnaissance instruction when receiving the site reconnaissance instruction, determining a target reconnaissance record according to the selected instruction when receiving a selection instruction input by a user according to the selected page, and displaying a corresponding site reconnaissance page according to the target reconnaissance record;

the site reconnaissance module is further configured to receive a modification operation performed by a user according to the site reconnaissance page, determine modification information according to the modification operation, and modify the target survey record according to the modification information to obtain a modified target survey record.

In addition, in order to achieve the above object, the present invention further provides a production safety accident site investigation information acquisition method based on a production safety accident site investigation information acquisition system, the system including: the system comprises a field reconnaissance module and a reconnaissance query module;

the method comprises the following steps:

the site survey module displays a site survey page according to a survey command when receiving the survey command;

the site survey module receives basic information and site survey data input by a user according to the site survey page, and acquires survey data and a planar sketch map related to a current accident;

the site reconnaissance module generates a reconnaissance record according to the basic information, the site reconnaissance data, the reconnaissance data and the planar sketch;

and when the survey query module receives a survey record query instruction, determining a corresponding survey record to be selected according to the survey record query instruction, and displaying the survey record to be selected.

Optionally, the site survey module receives basic information and site survey data input by a user according to the site survey page, and obtains survey data and a planar sketch map related to a current accident, including:

the site survey module displays a basic information page according to a basic information input instruction when receiving the basic information input instruction input by a user according to the site survey page, and receives basic information input by the user according to the basic information page;

the site survey module displays a site survey page according to a site survey input instruction input by a user according to the site survey page when receiving the site survey input instruction input by the user according to the site survey page, and receives site survey data input by the user according to the site survey page;

when a survey data entry instruction input by a user according to the site survey page is received, the site survey module displays a survey data page according to the survey data entry instruction, acquires survey data related to a current accident, and displays the survey data in the survey data page;

the site survey module is further used for calling a drawing plug-in according to the drawing instruction when receiving the drawing instruction input by a user according to the site survey page, displaying a drawing interface corresponding to the drawing plug-in, detecting the drawing operation performed by the user based on the drawing interface, generating a plane sketch according to the drawing operation, and displaying the plane sketch in the plane sketch page;

the site reconnaissance module generates a reconnaissance record according to the basic information, the site reconnaissance data, the reconnaissance data and the planar sketch, and comprises:

the site reconnaissance module is further configured to generate a reconnaissance report according to the basic information, the site reconnaissance data, the reconnaissance data, and the planar sketch, and generate a reconnaissance record according to the reconnaissance report.

Optionally, the survey data page comprises: a weather data sub-page and a survey data photo sub-page, the survey data including weather data and survey picture data, the weather data including: at least one of weather conditions, temperature, humidity, wind direction, and wind force, the reconnaissance picture data comprising: measuring a data photo;

when receiving a survey data entry instruction input by a user according to the site survey page, the site survey module displays a survey data page according to the survey data entry instruction, acquires survey data related to a current accident, and displays the survey data in the survey data page, and the method comprises the following steps:

the scene reconnaissance module acquires the accident occurrence time and the accident occurrence place corresponding to the current accident, searches weather data corresponding to the accident occurrence time and the accident occurrence place, and displays the weather data in the weather data sub-page;

and the field reconnaissance module receives a measurement data photo input by a user in the measurement data photo sub-page, and displays the measurement data photo in the measurement data photo sub-page.

Optionally, when the survey query module receives a survey record query instruction, determining a corresponding survey record to be selected according to the survey record query instruction, and displaying the survey record to be selected, where the determining includes:

when receiving an investigation record inquiry instruction, the investigation inquiry module displays an investigation record page according to the investigation record inquiry instruction, traverses the investigation record, takes the traversed investigation record as a to-be-selected investigation record, and displays the to-be-selected investigation record in the investigation record page;

after the displaying of the survey record to be selected in the survey record page, the method further comprises:

when receiving a checking record instruction input by a user according to a checking record page, the checking query module determines a corresponding checking record according to the checking record instruction, and displays a preliminary checking report corresponding to the checking record instruction;

when a record deleting instruction input by a user according to an investigation record page is received, the investigation inquiring module determines a corresponding investigation record according to the record deleting instruction and deletes the investigation record corresponding to the record deleting instruction;

when receiving an edit record instruction input by a user according to an investigation record page, the investigation inquiry module determines a corresponding investigation record according to the edit record instruction, and jumps to a site preliminary investigation page corresponding to the investigation record corresponding to the edit record instruction, so that the user can edit the content.

Optionally, the system further comprises: the system comprises a survey guidance module and a field reconnaissance module;

when the survey inquiry module receives a survey record inquiry command, the survey inquiry module determines a corresponding survey record to be selected according to the survey record inquiry command, and displays the survey record to be selected, and the survey inquiry module further comprises:

when receiving a survey guidance instruction, the survey guidance module searches a preset typical accident scene survey guidance, generates a survey guidance page according to the typical accident scene survey guidance, and displays the survey guidance page;

the site reconnaissance module displays a record selection page according to a site reconnaissance instruction when receiving the site reconnaissance instruction, determines a target reconnaissance record according to the selection instruction when receiving a selection instruction input by a user according to the record selection page, and displays a corresponding site reconnaissance page according to the target reconnaissance record;

and the site reconnaissance module receives modification operation performed by a user according to a site reconnaissance page, determines modification information according to the modification operation, and modifies the target survey record according to the modification information to obtain a modified target survey record.

The invention provides a production safety accident site investigation information acquisition system, which aims at the current situation that the existing safety accident investigation acquisition generation in China is a traditional acquisition mode, and the investigation notes, the investigation drawings and the preliminary investigation reports are all made by manual input, and the information and the intellectualization are lacked.

Drawings

FIG. 1 is a functional block diagram of a first embodiment of a survey information collection system for a production safety accident site according to the present invention;

FIG. 2 is a schematic diagram of an APP workbench according to an embodiment of the present invention;

FIG. 3 is a schematic view of a site survey page according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a basic information page according to an embodiment of the present invention;

FIG. 5 is a schematic view of a site survey page according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a survey data page in accordance with an embodiment of the present invention;

FIG. 7 is a schematic plan view of a page of one embodiment of the present invention;

FIG. 8 is a schematic flow chart of a first embodiment of the investigation information collection method for a production safety accident scene according to the present invention;

fig. 9 is a flowchart illustrating a second embodiment of the method for acquiring investigation information of a production safety accident scene according to the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 1 is a functional module schematic diagram of a first embodiment of a production safety accident scene investigation information acquisition system according to the present invention. The system comprises: a field survey module 10 and a survey query module 20.

And the site reconnaissance module 10 is used for displaying a site reconnaissance page according to the reconnaissance instruction when the reconnaissance instruction is received.

It should be noted that, the investigation information collecting system in the production safety accident site in this embodiment may be a production safety accident investigation surveying and surveying system, and may also be other systems that can achieve the same or similar functions. This system carries out the relevant environmental data of gathering present investigation through the mode of informationization + associated big data, and two kinds of modes of typing in of accessible APP, PC end are gathered in a flexible way, are typed, gather fixed evidence from the comprehensive angle of system, improve investigation efficiency. The method adopts two acquisition modes of an APP and a PC terminal, the APP adopts the functions of selection, photographing and uploading as much as possible, and the investigation burden is not increased for accident investigators; the PC terminal can be convenient for the investigation personnel to increase some characters to type in and big picture to type in, improves the quality and the legal effect of investigation. In the present embodiment, an APP is taken as an example for explanation.

It should be understood that the system may include four surveying modules, namely, a site survey module, a survey query module, a survey direction module, and a site reconnaissance module, and may further include other surveying modules, which is not limited in this embodiment.

It can be understood that, when the user uses this system on the cell-phone, can open corresponding APP on the cell-phone, then select on APP, if the user needs to use on-the-spot reconnaissance function, then can input the reconnaissance instruction, the on-the-spot reconnaissance module of system can show on-the-spot reconnaissance page according to the reconnaissance instruction when receiving the reconnaissance instruction.

In a specific implementation, as shown in fig. 2, fig. 2 is a schematic diagram of an APP workbench, a field survey area may be set in a page of the workbench, the field survey area may include four icons of a field survey, a survey query, a survey guide, and a field reconnaissance, and a user may input a corresponding control instruction by clicking the icon. For example, if the user needs to use the site reconnaissance function to enter reconnaissance information, the site reconnaissance icon on the screen can be clicked, when the click operation of the user on the site reconnaissance icon is detected, the receipt of the reconnaissance instruction can be determined, and then a corresponding site reconnaissance page can be displayed according to the reconnaissance instruction.

The site reconnaissance module 10 is further configured to receive basic information and site reconnaissance data input by a user according to the site reconnaissance page, and obtain reconnaissance data related to a current accident.

It should be understood that the user may select from the displayed site survey page and enter the corresponding page for information entry, for example, as shown in fig. 3, fig. 3 is a schematic view of the site survey page, in which four icons of basic information, site survey, survey data and plan sketch are included, and the user may select the page by clicking on the icon. If the user clicks the basic information icon, judging that a basic information input instruction is detected; if the user clicks the on-site investigation icon, judging that an on-site investigation input instruction is detected; if the user clicks on the survey data icon, determining that a survey data entry instruction is detected; and if the user clicks the plane sketch icon, judging that a drawing instruction is detected.

It will be appreciated that in addition to the four icons and corresponding pages for basic information, site survey, survey data, and plan sketch, the plan sketch page may be a sub-page in the survey data page and the plan sketch may be a part of the survey data, and the present embodiment is not limited thereto.

It should be understood that, when a basic information entry instruction input by a user according to the site survey page is received, the basic information page can be displayed according to the basic information entry instruction, and the basic information input by the user according to the basic information page is received. The basic information can include information such as investigation serial number, accident occurrence place, detailed address, incident time, investigation time, accident type, industry field, accident occurrence unit, accident related unit, investigation person, field protection measure, illumination condition, and the like, and the basic information can be partially filled in by a user and partially automatically generated by the system. For example, the system has a GPS satellite positioning function, can automatically position an accident investigation site, can accurately position longitude and latitude and detailed sites where an accident occurs, is particularly beneficial to solving the problems that some remote places of the accident cannot be positioned and the incident site cannot be described, and has an important data supporting function for positioning a map of the urban accident.

In a specific implementation, as shown in fig. 4, fig. 4 is a schematic view of a basic information page, and a user can enter basic information in the basic information page.

It should be understood that, when a field survey input command input by a user according to the field survey page is received, the field survey page can be displayed according to the field survey input command, and the field survey data input by the user according to the field survey page can be received. The on-site survey data may include on-site photographs, identification photographs, monitoring videos, sound recordings, electronic material evidence, and the like, and the on-site photographs may include orientation photographs, overview photographs, key photographs, detailed photographs, and the like, which are not limited in this embodiment.

In a specific implementation, as shown in fig. 5, fig. 5 is a schematic view of a site survey page, and a user may enter site survey data in the site survey page.

It should be understood that information such as weather, temperature and humidity, wind power, wind direction, air pressure value and the like during the incident is difficult to acquire, and a plane schematic diagram and an information automatic positioning function are lacked. In order to solve the problems, when a survey data entry instruction input by a user according to a site survey page is received, a survey data page is displayed according to the survey entry instruction. Wherein the survey data page may include: a weather data sub-page and a survey data photo sub-page, the survey data may include weather data and survey picture data, the weather data may include: at least one of weather conditions, temperature, humidity, wind direction, and wind force, the reconnaissance picture data may include: and measuring a data photo.

In specific implementation, as shown in fig. 6, fig. 6 is a survey data page schematic diagram, the system has a function of automatically associating weather big data, obtains the accident occurrence time and the accident occurrence place corresponding to the current accident, automatically searches weather data corresponding to the accident occurrence time and the accident occurrence place, displays the weather data in a weather data sub-page, can solve the loss of some weather, temperature and humidity, air pressure, wind power and wind direction after the accident occurs by automatically associating the weather big data, and can automatically associate and enter incident place parameters by associating the weather bureau big data, thereby solving the problem of accident investigation. The user can also input the measured data photo in the measured data photo sub-page and display the measured data photo in the measured data photo sub-page.

It should be understood that when a drawing instruction input by a user according to the site survey page is received, the drawing plug-in may be called according to the drawing instruction, a drawing interface corresponding to the drawing plug-in is displayed, a drawing operation performed by the user based on the drawing interface is detected, a planar sketch is generated according to the drawing operation, and the planar sketch is displayed in the planar sketch page.

In specific implementation, as shown in fig. 7, fig. 7 is a schematic view of a page of a planar sketch, the system has a drawing function, and when a user needs to enter the planar sketch, the user can call a corresponding drawing plug-in for drawing, so that the problems of non-standard fixed evidence and lack of the planar sketch are solved.

The site reconnaissance module 10 is further configured to generate a reconnaissance record according to the basic information, the site reconnaissance data, the reconnaissance data, and the planar sketch.

It should be understood that the user may perform the saving and submitting operations after performing the above-mentioned information entry operation, and after detecting that the user's operation is completed, may generate a survey report based on the entered basic information, the site survey data, the survey data, and the plan sketch, and generate a survey record based on the survey report.

It can be understood that the system has the function of automatically generating reports and records, automatically generates survey stroke records, survey drawings, survey reports and the like through an informatization means, is used as production safety accident survey evidence, and provides convenience for accident survey with high efficiency and responsibility avoidance, and is convenient to change and store.

The survey query module 20 is configured to, when receiving a survey record query instruction, determine a corresponding survey record to be selected according to the survey record query instruction, and display the survey record to be selected.

It should be understood that after the survey records are generated, they may be stored. When a user needs to inquire the survey records, the user can perform survey record inquiry operation on the APP, and when receiving the survey record inquiry command, the user can determine the corresponding to-be-selected survey records according to the survey record inquiry command and display the to-be-selected survey records, so that the survey records in the accident scene can be checked and searched.

It can be understood that this system provides an on-the-spot investigation collection mode for the on-the-spot investigation of production safety accident from the information-based angle, and APP gathers the efficiency that improves accident scene investigation personnel gather and type, and PC end type word and automatic generation survey notes, survey drawing, first survey report save the time of making survey notes, report greatly, improve investigation efficiency. The big data of the incident place environment of the associated meteorological bureau solves the problem of inaccurate acquisition of the incident time environment data.

In the embodiment, aiming at the current situations that the existing safety accident survey collection generated in the whole country is in the traditional collection mode, the manual input is used for making survey notes, survey drawings and preliminary survey reports, and the situations of no informatization and intellectualization are lacked, through the scheme of the embodiment, the survey reports and the survey records can be automatically generated according to the input various field survey information, so that the survey records can be conveniently input and inquired by investigators, the accident survey efficiency and quality are improved, and the standardized, flow and digital management of the field survey of the production safety accidents is realized.

Further, with continued reference to fig. 1, a second embodiment of the present invention is presented for a survey information collection system for a production safety accident scene. The survey query module 20 is configured to, when receiving a survey record query instruction, display a survey record page according to the survey record query instruction, traverse a survey record, use the traversed survey record as a to-be-selected survey record, and display the to-be-selected survey record in the survey record page.

It should be understood that, if a user needs to use the survey query function to query the survey records, the user can click the survey query icon in the survey area in the APP workbench page, and when the user clicks the survey query icon, the user can determine that a survey query instruction is received, and then display the survey record page according to the survey query instruction.

It will be appreciated that the survey records stored in the database may be traversed, and the traversed survey records may be used as survey records to be selected, which are then displayed in a survey record page. By the mode, all the stored survey records can be found out and displayed.

The survey query module 20 is further configured to, when receiving a record viewing instruction input by a user according to a survey record page, determine a corresponding survey record according to the record viewing instruction, and display a preliminary survey report corresponding to the survey record corresponding to the record viewing instruction.

In a specific implementation, for example, if 5 survey records, namely survey record a, survey record B, survey record C, survey record D and survey record E, are stored in the database, the 5 survey records can be used as the survey records to be selected and displayed in the survey record page. If the user wants to check the detailed information of the survey record A, the user can click a check icon corresponding to the survey record A, the system can receive a check record instruction input by the user, the survey record which the user wants to check can be determined as the survey record A according to the check record instruction, and then a preliminary survey report corresponding to the survey record A and various survey information can be displayed.

The survey query module 20 is further configured to, when a record deletion instruction input by a user according to a survey record page is received, determine a corresponding survey record according to the record deletion instruction, and delete the survey record corresponding to the record deletion instruction.

In a specific implementation, for example, if the user wants to delete the survey record B, the user may click on a delete icon corresponding to the survey record B, the system may receive a record delete instruction input by the user, determine that the survey record that the user wants to delete is the survey record B according to the record delete instruction, and then delete the survey record B.

The survey query module 20 is further configured to, when receiving an edit record instruction input by a user according to a survey record page, determine a corresponding survey record according to the edit record instruction, and jump to a site survey page corresponding to the survey record corresponding to the edit record instruction, so that the user edits content.

In a specific implementation, for example, if the user wants to edit the survey record C, the edit icon corresponding to the survey record C may be clicked, the system may receive an edit record instruction input by the user, determine that the survey record that the user wants to edit is the survey record C according to the edit record instruction, and then may jump to a site survey page corresponding to the survey record C for the user to edit the content of the survey record C.

It should be understood that the survey query module also has a variety of screening functions, which may include, for example, regional screening, incident type screening, and advanced screening. Wherein, the region screening can be: the user clicks the area icon above the survey record page, the system can receive the area screening instruction input by the user, and a plurality of accident areas can be displayed according to the area screening instruction. The user can click one accident area, the system can receive an area selection instruction input by the user, the corresponding target accident area can be determined according to the area selection instruction, the investigation record corresponding to the target accident area can be searched, and the investigation record corresponding to the target accident area is displayed. The accident type screening may be: the user clicks the type icon above the survey record page, the system can receive the type screening instruction input by the user, and multiple accident types can be displayed according to the type screening instruction. The user can click one accident type, the system can receive a type selection instruction input by the user, the corresponding target accident type can be determined according to the type selection instruction, the investigation record corresponding to the accident type can be searched, and the investigation record corresponding to the target accident type is displayed. The advanced screening may be: the user clicks the screening icon above the survey record page, the system can receive the high-level screening instruction input by the user, and the system can jump to the screening page according to the high-level screening instruction. The user can fill in conditions such as accident grade, accident type and incident time on the screening page, and after the system receives the conditions input by the user, the system can search corresponding investigation records according to the conditions and then display the searched investigation records.

Further, the system further comprises: the system comprises a survey guidance module and a field reconnaissance module;

the system comprises an investigation guiding module, a data processing module and a data processing module, wherein the investigation guiding module is used for searching a preset typical accident scene investigation guide when an investigation guiding instruction is received, generating an investigation guiding page according to the typical accident scene investigation guide and displaying the investigation guiding page;

the site reconnaissance module is used for displaying a selected page according to a site reconnaissance instruction when receiving the site reconnaissance instruction, determining a target reconnaissance record according to the selected instruction when receiving a selection instruction input by a user according to the selected page, and displaying a corresponding site reconnaissance page according to the target reconnaissance record;

the site reconnaissance module is further configured to receive a modification operation performed by a user according to the site reconnaissance page, determine modification information according to the modification operation, and modify the target survey record according to the modification information to obtain a modified target survey record.

It should be understood that, if a user needs to use the survey guidance function, check the relevant survey guidance, click the survey guidance icon in the survey area in the APP workbench page, when the click operation of the user on the survey guidance icon is detected, it may be determined that a survey guidance instruction is received, search a preset typical accident scene survey guidance according to the survey guidance instruction, and then generate a survey guidance page, and display the survey guidance page. The preset typical accident scene survey guide can be a preset survey guide, for example, twenty typical accident scene survey guides can be preset, the typical accident scene survey guides can be classified, and a user can select a specific accident type according to needs when using the system and display the typical accident scene survey guide corresponding to the accident type.

It should be understood that if a user needs to use the site reconnaissance function to enter site reconnaissance information, the user can click a site reconnaissance icon in a reconnaissance area in a page of the APP workbench, when the click operation of the user on the site reconnaissance icon is detected, it can be determined that a site reconnaissance instruction is received, the page is selected according to the site reconnaissance instruction display record, the user can select a reconnaissance record in the record selection page, and the reconnaissance record selected by the user is used as a target reconnaissance record. And displaying a site reconnaissance page corresponding to the target survey record, receiving modification operation performed by a user according to the site reconnaissance page, displaying the target survey record according to modification information corresponding to the modification operation to obtain the modified target survey record, and updating the target survey record stored in the database according to the modified target survey record.

In the embodiment, the user can inquire the survey record in the system, can check the survey guide and can also input the on-site reconnaissance information, so that the on-site survey information acquisition of the production safety accident is more intelligent and standardized, and the efficiency and the quality of the accident survey are further improved.

Referring to fig. 8, the present invention provides a first embodiment of a production safety accident site investigation information acquisition method, which is applied to a production safety accident site investigation information acquisition system, the system including: the system comprises a field reconnaissance module and a reconnaissance query module;

the method comprises the following steps:

and step S10, the site reconnaissance module displays a site reconnaissance page according to the reconnaissance instruction when receiving the reconnaissance instruction.

It should be noted that, the investigation information collecting system in the production safety accident site in this embodiment may be a production safety accident investigation surveying and surveying system, and may also be other systems that can achieve the same or similar functions. This system carries out the relevant environmental data of gathering present investigation through the mode of informationization + associated big data, and two kinds of modes of typing in of accessible APP, PC end are gathered in a flexible way, are typed, gather fixed evidence from the comprehensive angle of system, improve investigation efficiency. The method adopts two acquisition modes of an APP and a PC terminal, the APP adopts the functions of selection, photographing and uploading as much as possible, and the investigation burden is not increased for accident investigators; the PC terminal can be convenient for the investigation personnel to increase some characters to type in and big picture to type in, improves the quality and the legal effect of investigation. In the present embodiment, an APP is taken as an example for explanation.

It should be understood that the system may include four surveying modules, namely, a site survey module, a survey query module, a survey direction module, and a site reconnaissance module, and may further include other surveying modules, which is not limited in this embodiment.

It can be understood that, when the user uses this system on the cell-phone, can open corresponding APP on the cell-phone, then select on APP, if the user needs to use on-the-spot reconnaissance function, then can input the reconnaissance instruction, the on-the-spot reconnaissance module of system can show on-the-spot reconnaissance page according to the reconnaissance instruction when receiving the reconnaissance instruction.

In a specific implementation, as shown in fig. 2, fig. 2 is a schematic diagram of an APP workbench, a field survey area may be set in a page of the workbench, the field survey area may include four icons of a field survey, a survey query, a survey guide, and a field reconnaissance, and a user may input a corresponding control instruction by clicking the icon. For example, if the user needs to use the site reconnaissance function to enter reconnaissance information, the site reconnaissance icon on the screen can be clicked, when the click operation of the user on the site reconnaissance icon is detected, the receipt of the reconnaissance instruction can be determined, and then a corresponding site reconnaissance page can be displayed according to the reconnaissance instruction.

And step S20, the site survey module receives the basic information and site survey data input by the user according to the site survey page, and acquires survey data and a plan sketch related to the current accident.

It should be understood that the user may select from the displayed site survey page and enter the corresponding page for information entry, for example, as shown in fig. 3, fig. 3 is a schematic view of the site survey page, in which four icons of basic information, site survey, survey data and plan sketch are included, and the user may select the page by clicking on the icon. If the user clicks the basic information icon, judging that a basic information input instruction is detected; if the user clicks the on-site investigation icon, judging that an on-site investigation input instruction is detected; if the user clicks on the survey data icon, determining that a survey data entry instruction is detected; and if the user clicks the plane sketch icon, judging that a drawing instruction is detected.

It will be appreciated that in addition to the four icons and corresponding pages for basic information, site survey, survey data, and plan sketch, the plan sketch page may be a sub-page in the survey data page and the plan sketch may be a part of the survey data, and the present embodiment is not limited thereto.

It should be understood that, when a basic information entry instruction input by a user according to the site survey page is received, the basic information page can be displayed according to the basic information entry instruction, and the basic information input by the user according to the basic information page is received. The basic information can include information such as investigation serial number, accident occurrence place, detailed address, incident time, investigation time, accident type, industry field, accident occurrence unit, accident related unit, investigation person, field protection measure, illumination condition, and the like, and the basic information can be partially filled in by a user and partially automatically generated by the system. For example, the system has a GPS satellite positioning function, can automatically position an accident investigation site, can accurately position longitude and latitude and detailed sites where an accident occurs, is particularly beneficial to solving the problems that some remote places of the accident cannot be positioned and the incident site cannot be described, and has an important data supporting function for positioning a map of the urban accident.

In a specific implementation, as shown in fig. 4, fig. 4 is a schematic view of a basic information page, and a user can enter basic information in the basic information page.

It should be understood that, when a field survey input command input by a user according to the field survey page is received, the field survey page can be displayed according to the field survey input command, and the field survey data input by the user according to the field survey page can be received. The on-site survey data may include on-site photographs, identification photographs, monitoring videos, sound recordings, electronic material evidence, and the like, and the on-site photographs may include orientation photographs, overview photographs, key photographs, detailed photographs, and the like, which are not limited in this embodiment.

In a specific implementation, as shown in fig. 5, fig. 5 is a schematic view of a site survey page, and a user may enter site survey data in the site survey page.

It should be understood that information such as weather, temperature and humidity, wind power, wind direction, air pressure value and the like during the incident is difficult to acquire, and a plane schematic diagram and an information automatic positioning function are lacked. In order to solve the problems, when a survey data entry instruction input by a user according to a site survey page is received, a survey data page is displayed according to the survey entry instruction. Wherein the survey data page may include: a weather data sub-page and a survey data photo sub-page, the survey data may include weather data and survey picture data, the weather data may include: at least one of weather conditions, temperature, humidity, wind direction, and wind force, the reconnaissance picture data may include: and measuring a data photo.

In specific implementation, as shown in fig. 6, fig. 6 is a survey data page schematic diagram, the system has a function of automatically associating weather big data, obtains the accident occurrence time and the accident occurrence place corresponding to the current accident, automatically searches weather data corresponding to the accident occurrence time and the accident occurrence place, displays the weather data in a weather data sub-page, can solve the loss of some weather, temperature and humidity, air pressure, wind power and wind direction after the accident occurs by automatically associating the weather big data, and can automatically associate and enter incident place parameters by associating the weather bureau big data, thereby solving the problem of accident investigation. The user can also input the measured data photo in the measured data photo sub-page and display the measured data photo in the measured data photo sub-page.

It should be understood that when a drawing instruction input by a user according to the site survey page is received, the drawing plug-in may be called according to the drawing instruction, a drawing interface corresponding to the drawing plug-in is displayed, a drawing operation performed by the user based on the drawing interface is detected, a planar sketch is generated according to the drawing operation, and the planar sketch is displayed in the planar sketch page.

In specific implementation, as shown in fig. 7, fig. 7 is a schematic view of a page of a planar sketch, the system has a drawing function, and when a user needs to enter the planar sketch, the user can call a corresponding drawing plug-in for drawing, so that the problems of non-standard fixed evidence and lack of the planar sketch are solved.

And step S30, the site reconnaissance module generates a reconnaissance record according to the basic information, the site reconnaissance data, the survey data and the planar sketch.

It should be understood that the user may perform the saving and submitting operations after performing the above-mentioned information entry operation, and after detecting that the user's operation is completed, may generate a survey report based on the entered basic information, the site survey data, the survey data, and the plan sketch, and generate a survey record based on the survey report.

It can be understood that the system has the function of automatically generating reports and records, automatically generates survey stroke records, survey drawings, survey reports and the like through an informatization means, is used as production safety accident survey evidence, and provides convenience for accident survey with high efficiency and responsibility avoidance, and is convenient to change and store.

And step S40, when the survey query module receives a survey record query instruction, determining a corresponding survey record to be selected according to the survey record query instruction, and displaying the survey record to be selected.

It should be understood that after the survey records are generated, they may be stored. When a user needs to inquire the survey records, the user can perform survey record inquiry operation on the APP, and when receiving the survey record inquiry command, the user can determine the corresponding to-be-selected survey records according to the survey record inquiry command and display the to-be-selected survey records, so that the survey records in the accident scene can be checked and searched.

It can be understood that this system provides an on-the-spot investigation collection mode for the on-the-spot investigation of production safety accident from the information-based angle, and APP gathers the efficiency that improves accident scene investigation personnel gather and type, and PC end type word and automatic generation survey notes, survey drawing, first survey report save the time of making survey notes, report greatly, improve investigation efficiency. The big data of the incident place environment of the associated meteorological bureau solves the problem of inaccurate acquisition of the incident time environment data.

In the embodiment, aiming at the current situations that the existing safety accident survey collection generated in the whole country is in the traditional collection mode, the manual input is used for making survey notes, survey drawings and preliminary survey reports, and the situations of no informatization and intellectualization are lacked, through the scheme of the embodiment, the survey reports and the survey records can be automatically generated according to the input various field survey information, so that the survey records can be conveniently input and inquired by investigators, the accident survey efficiency and quality are improved, and the standardized, flow and digital management of the field survey of the production safety accidents is realized.

Referring to fig. 9, the present invention provides a second embodiment of a method for collecting investigation information of a production safety accident scene, where the step S40 includes:

step S401, when receiving a survey record query instruction, the survey query module displays a survey record page according to the survey record query instruction, traverses the survey record, takes the traversed survey record as a to-be-selected survey record, and displays the to-be-selected survey record in the survey record page.

It should be understood that, if a user needs to use the survey query function to query the survey records, the user can click the survey query icon in the survey area in the APP workbench page, and when the user clicks the survey query icon, the user can determine that a survey query instruction is received, and then display the survey record page according to the survey query instruction.

It will be appreciated that the survey records stored in the database may be traversed, and the traversed survey records may be used as survey records to be selected, which are then displayed in a survey record page. By the mode, all the stored survey records can be found out and displayed.

Further, after the step S401, the method further includes:

and step S50, when receiving a record viewing instruction input by a user according to an investigation record page, the investigation query module determines a corresponding investigation record according to the record viewing instruction, and displays a preliminary investigation report corresponding to the investigation record corresponding to the record viewing instruction.

In a specific implementation, for example, if 5 survey records, namely survey record a, survey record B, survey record C, survey record D and survey record E, are stored in the database, the 5 survey records can be used as the survey records to be selected and displayed in the survey record page. If the user wants to check the detailed information of the survey record A, the user can click a check icon corresponding to the survey record A, the system can receive a check record instruction input by the user, the survey record which the user wants to check can be determined as the survey record A according to the check record instruction, and then a preliminary survey report corresponding to the survey record A and various survey information can be displayed.

Step S60, when the survey inquiry module receives a record deleting instruction input by a user according to a survey record page, the corresponding survey record is determined according to the record deleting instruction, and the survey record corresponding to the record deleting instruction is deleted.

In a specific implementation, for example, if the user wants to delete the survey record B, the user may click on a delete icon corresponding to the survey record B, the system may receive a record delete instruction input by the user, determine that the survey record that the user wants to delete is the survey record B according to the record delete instruction, and then delete the survey record B.

And step S70, when receiving an edit record instruction input by a user according to an investigation record page, the investigation inquiry module determines a corresponding investigation record according to the edit record instruction, and jumps to a site preliminary investigation page corresponding to the investigation record corresponding to the edit record instruction for the user to edit the content.

In a specific implementation, for example, if the user wants to edit the survey record C, the edit icon corresponding to the survey record C may be clicked, the system may receive an edit record instruction input by the user, determine that the survey record that the user wants to edit is the survey record C according to the edit record instruction, and then may jump to a site survey page corresponding to the survey record C for the user to edit the content of the survey record C.

It should be understood that the survey query module also has a variety of screening functions, which may include, for example, regional screening, incident type screening, and advanced screening. Wherein, the region screening can be: the user clicks the area icon above the survey record page, the system can receive the area screening instruction input by the user, and a plurality of accident areas can be displayed according to the area screening instruction. The user can click one accident area, the system can receive an area selection instruction input by the user, the corresponding target accident area can be determined according to the area selection instruction, the investigation record corresponding to the target accident area can be searched, and the investigation record corresponding to the target accident area is displayed. The accident type screening may be: the user clicks the type icon above the survey record page, the system can receive the type screening instruction input by the user, and multiple accident types can be displayed according to the type screening instruction. The user can click one accident type, the system can receive a type selection instruction input by the user, the corresponding target accident type can be determined according to the type selection instruction, the investigation record corresponding to the accident type can be searched, and the investigation record corresponding to the target accident type is displayed. The advanced screening may be: the user clicks the screening icon above the survey record page, the system can receive the high-level screening instruction input by the user, and the system can jump to the screening page according to the high-level screening instruction. The user can fill in conditions such as accident grade, accident type and incident time on the screening page, and after the system receives the conditions input by the user, the system can search corresponding investigation records according to the conditions and then display the searched investigation records.

Further, the system further comprises: a survey guidance module and a site reconnaissance module, wherein after the step S40, the method further comprises:

when receiving a survey guidance instruction, the survey guidance module searches a preset typical accident scene survey guidance, generates a survey guidance page according to the typical accident scene survey guidance, and displays the survey guidance page; the site reconnaissance module displays a record selection page according to a site reconnaissance instruction when receiving the site reconnaissance instruction, determines a target reconnaissance record according to the selection instruction when receiving a selection instruction input by a user according to the record selection page, and displays a corresponding site reconnaissance page according to the target reconnaissance record; and the site reconnaissance module receives modification operation performed by a user according to a site reconnaissance page, determines modification information according to the modification operation, and modifies the target survey record according to the modification information to obtain a modified target survey record.

It should be understood that, if a user needs to use the survey guidance function, check the relevant survey guidance, click the survey guidance icon in the survey area in the APP workbench page, when the click operation of the user on the survey guidance icon is detected, it may be determined that a survey guidance instruction is received, search a preset typical accident scene survey guidance according to the survey guidance instruction, and then generate a survey guidance page, and display the survey guidance page. The preset typical accident scene survey guide can be a preset survey guide, for example, twenty typical accident scene survey guides can be preset, the typical accident scene survey guides can be classified, and a user can select a specific accident type according to needs when using the system and display the typical accident scene survey guide corresponding to the accident type.

It should be understood that if a user needs to use the site reconnaissance function to enter site reconnaissance information, the user can click a site reconnaissance icon in a reconnaissance area in a page of the APP workbench, when the click operation of the user on the site reconnaissance icon is detected, it can be determined that a site reconnaissance instruction is received, the page is selected according to the site reconnaissance instruction display record, the user can select a reconnaissance record in the record selection page, and the reconnaissance record selected by the user is used as a target reconnaissance record. And displaying a site reconnaissance page corresponding to the target survey record, receiving modification operation performed by a user according to the site reconnaissance page, displaying the target survey record according to modification information corresponding to the modification operation to obtain the modified target survey record, and updating the target survey record stored in the database according to the modified target survey record.

In the embodiment, the user can inquire the survey record in the system, can check the survey guide and can also input the on-site reconnaissance information, so that the on-site survey information acquisition of the production safety accident is more intelligent and standardized, and the efficiency and the quality of the accident survey are further improved.

Other embodiments or specific implementation methods of the investigation information acquisition method for the production safety accident site according to the present invention may refer to the above system embodiments, and are not described herein again.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a computer-readable storage medium (such as ROM/RAM, magnetic disk, optical disk) as described above, and includes several instructions for enabling an intelligent terminal (which may be a mobile phone, a computer, a terminal device, or a network terminal device) to execute the method according to the embodiments of the present invention.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A system for acquiring survey information of a production safety accident scene, the system comprising: the system comprises a field reconnaissance module and a reconnaissance query module;

the site survey module is used for displaying a site survey page according to a survey command when the survey command is received;

the site survey module is also used for receiving basic information and site survey data input by a user according to the site survey page and acquiring survey data and a plane sketch map related to the current accident;

the site reconnaissance module is further used for generating a reconnaissance record according to the basic information, the site reconnaissance data, the reconnaissance data and the planar sketch;

and the survey query module is used for determining a corresponding survey record to be selected according to the survey record query instruction and displaying the survey record to be selected when the survey record query instruction is received.

2. The system of claim 1, wherein the site survey module is further configured to, upon receiving a basic information entry command input by a user according to the site survey page, present a basic information page according to the basic information entry command, receive basic information input by the user according to the basic information page;

the site survey module is also used for displaying a site survey page according to the site survey input instruction and receiving site survey data input by a user according to the site survey page when the site survey input instruction input by the user according to the site survey page is received;

the site primary surveying module is further used for displaying a surveying data page according to the surveying data entry instruction when receiving a surveying data entry instruction input by a user according to the site primary surveying page, acquiring surveying data related to a current accident, and displaying the surveying data in the surveying data page;

the site survey module is further used for calling a drawing plug-in according to the drawing instruction when receiving the drawing instruction input by a user according to the site survey page, displaying a drawing interface corresponding to the drawing plug-in, detecting the drawing operation performed by the user based on the drawing interface, generating a plane sketch according to the drawing operation, and displaying the plane sketch in the plane sketch page;

the site reconnaissance module is further configured to generate a reconnaissance report according to the basic information, the site reconnaissance data, the reconnaissance data, and the planar sketch, and generate a reconnaissance record according to the reconnaissance report.

3. The system of claim 2, wherein the survey data page comprises: a weather data sub-page and a survey data photo sub-page, the survey data including weather data and survey picture data, the weather data including: at least one of weather conditions, temperature, humidity, wind direction, and wind force, the reconnaissance picture data comprising: measuring a data photo;

the scene reconnaissance module is further configured to acquire an accident occurrence time and an accident occurrence place corresponding to the current accident, search weather data corresponding to the accident occurrence time and the accident occurrence place, and display the weather data in the weather data sub-page;

the field reconnaissance module is also used for receiving the measured data photo input by the user in the measured data photo sub-page and displaying the measured data photo in the measured data photo sub-page.

4. The system according to any one of claims 1 to 3, wherein the survey query module is configured to, upon receiving a survey record query command, display a survey record page according to the survey record query command, traverse a survey record, and display the traversed survey record as a to-be-selected survey record in the survey record page;

the survey query module is further used for determining a corresponding survey record according to a survey record instruction when receiving the survey record instruction input by a user according to a survey record page, and displaying a preliminary survey report corresponding to the survey record instruction;

the survey query module is further used for determining a corresponding survey record according to the record deleting instruction and deleting the survey record corresponding to the record deleting instruction when the record deleting instruction input by a user according to a survey record page is received;

and the survey query module is also used for determining the corresponding survey record according to the editing record instruction when receiving the editing record instruction input by the user according to the survey record page, and jumping to the site initial survey page corresponding to the survey record corresponding to the editing record instruction so as to edit the content by the user.

5. The system of any one of claims 1-3, further comprising: the system comprises a survey guidance module and a field reconnaissance module;

the system comprises an investigation guiding module, a data processing module and a data processing module, wherein the investigation guiding module is used for searching a preset typical accident scene investigation guide when an investigation guiding instruction is received, generating an investigation guiding page according to the typical accident scene investigation guide and displaying the investigation guiding page;

the site reconnaissance module is used for displaying a selected page according to a site reconnaissance instruction when receiving the site reconnaissance instruction, determining a target reconnaissance record according to the selected instruction when receiving a selection instruction input by a user according to the selected page, and displaying a corresponding site reconnaissance page according to the target reconnaissance record;

the site reconnaissance module is further configured to receive a modification operation performed by a user according to the site reconnaissance page, determine modification information according to the modification operation, and modify the target survey record according to the modification information to obtain a modified target survey record.

6. A method for production safety accident site investigation information acquisition, characterized in that the method is applied to a system according to any one of claims 1 to 5, the system comprising: the system comprises a field reconnaissance module and a reconnaissance query module;

the method comprises the following steps:

the site survey module displays a site survey page according to a survey command when receiving the survey command;

the site survey module receives basic information and site survey data input by a user according to the site survey page, and acquires survey data and a planar sketch map related to a current accident;

the site reconnaissance module generates a reconnaissance record according to the basic information, the site reconnaissance data, the reconnaissance data and the planar sketch;

and when the survey query module receives a survey record query instruction, determining a corresponding survey record to be selected according to the survey record query instruction, and displaying the survey record to be selected.

7. The method of claim 6, wherein the field survey module receives basic information and field survey data entered by a user from the field survey page and obtains survey data and plan views associated with a current incident, comprising:

the site survey module displays a basic information page according to a basic information input instruction when receiving the basic information input instruction input by a user according to the site survey page, and receives basic information input by the user according to the basic information page;

the site survey module displays a site survey page according to a site survey input instruction input by a user according to the site survey page when receiving the site survey input instruction input by the user according to the site survey page, and receives site survey data input by the user according to the site survey page;

when a survey data entry instruction input by a user according to the site survey page is received, the site survey module displays a survey data page according to the survey data entry instruction, acquires survey data related to a current accident, and displays the survey data in the survey data page;

the site survey module is further used for calling a drawing plug-in according to the drawing instruction when receiving the drawing instruction input by a user according to the site survey page, displaying a drawing interface corresponding to the drawing plug-in, detecting the drawing operation performed by the user based on the drawing interface, generating a plane sketch according to the drawing operation, and displaying the plane sketch in the plane sketch page;

the site reconnaissance module generates a reconnaissance record according to the basic information, the site reconnaissance data, the reconnaissance data and the planar sketch, and comprises:

the site reconnaissance module is further configured to generate a reconnaissance report according to the basic information, the site reconnaissance data, the reconnaissance data, and the planar sketch, and generate a reconnaissance record according to the reconnaissance report.

8. The method of claim 7, wherein the survey data page comprises: a weather data sub-page and a survey data photo sub-page, the survey data including weather data and survey picture data, the weather data including: at least one of weather conditions, temperature, humidity, wind direction, and wind force, the reconnaissance picture data comprising: measuring a data photo;

when receiving a survey data entry instruction input by a user according to the site survey page, the site survey module displays a survey data page according to the survey data entry instruction, acquires survey data related to a current accident, and displays the survey data in the survey data page, and the method comprises the following steps:

the scene reconnaissance module acquires the accident occurrence time and the accident occurrence place corresponding to the current accident, searches weather data corresponding to the accident occurrence time and the accident occurrence place, and displays the weather data in the weather data sub-page;

and the field reconnaissance module receives a measurement data photo input by a user in the measurement data photo sub-page, and displays the measurement data photo in the measurement data photo sub-page.

9. The method of any one of claims 6 to 8, wherein the determining, by the survey query module, a corresponding survey record to be selected according to the survey record query command and displaying the survey record to be selected upon receiving the survey record query command comprises:

when receiving an investigation record inquiry instruction, the investigation inquiry module displays an investigation record page according to the investigation record inquiry instruction, traverses the investigation record, takes the traversed investigation record as a to-be-selected investigation record, and displays the to-be-selected investigation record in the investigation record page;

after the displaying of the survey record to be selected in the survey record page, the method further comprises:

when receiving a checking record instruction input by a user according to a checking record page, the checking query module determines a corresponding checking record according to the checking record instruction, and displays a preliminary checking report corresponding to the checking record instruction;

when a record deleting instruction input by a user according to an investigation record page is received, the investigation inquiring module determines a corresponding investigation record according to the record deleting instruction and deletes the investigation record corresponding to the record deleting instruction;

when receiving an edit record instruction input by a user according to an investigation record page, the investigation inquiry module determines a corresponding investigation record according to the edit record instruction, and jumps to a site preliminary investigation page corresponding to the investigation record corresponding to the edit record instruction, so that the user can edit the content.

10. The method of any of claims 6-8, wherein the system further comprises: the system comprises a survey guidance module and a field reconnaissance module;

when the survey inquiry module receives a survey record inquiry command, the survey inquiry module determines a corresponding survey record to be selected according to the survey record inquiry command, and displays the survey record to be selected, and the survey inquiry module further comprises:

when receiving a survey guidance instruction, the survey guidance module searches a preset typical accident scene survey guidance, generates a survey guidance page according to the typical accident scene survey guidance, and displays the survey guidance page;

the site reconnaissance module displays a record selection page according to a site reconnaissance instruction when receiving the site reconnaissance instruction, determines a target reconnaissance record according to the selection instruction when receiving a selection instruction input by a user according to the record selection page, and displays a corresponding site reconnaissance page according to the target reconnaissance record;

and the site reconnaissance module receives modification operation performed by a user according to a site reconnaissance page, determines modification information according to the modification operation, and modifies the target survey record according to the modification information to obtain a modified target survey record.

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