CN113377842A - Emergency management method and system based on industrial internet big data - Google Patents

Abstract

The invention provides an emergency management method and system based on industrial internet big data, wherein, according to a data packet of the field device acquired in real time, the control device receives the data packet, generates a waveform diagram corresponding to the field device according to the data packet, configures a sub-display area and a display list of the waveform for the control device, touches a display screen of a display module, determines an abnormal state of the field device according to an abnormal waveform in an emergency management area, and generating a current emergency management mode of the field device, selecting at least one matching emergency management mode from a preset plurality of emergency management modes, and dragging the control icon corresponding to the matched emergency management mode to a communication list, identifying the corresponding emergency safety communication group member in the matched emergency management mode by the communication list, sending an emergency management instruction to the emergency safety communication group member, and performing emergency management on the field equipment. The invention also discloses a system and a matching method.

Description

Emergency management method and system based on industrial internet big data

Technical Field

The invention relates to the technical field of emergency management, in particular to an emergency management technology of an industrial park, and specifically relates to an emergency management method and system based on industrial internet big data.

Background

In areas with high risk, such as chemical industry parks, power transmission, power plants, nuclear power generation devices, mines and the like, safety early warning and monitoring are generally required to be established around production safety so as to improve production safety guarantee and major accident prevention and control capacity. According to the collected monitoring data, monitoring big data are formed, various abnormal states can be analyzed through the monitoring big data, and the various abnormal states are established into corresponding processing modes, so that real-time deployment can be effectively carried out, manual intervention is not needed, and the emergency management capability is improved.

Disclosure of Invention

The invention aims to provide an emergency management method and system based on industrial internet big data, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the emergency management method based on the industrial internet big data comprises the following steps:

according to the data packet of the field device collected in real time and transmitting the data packet to the control device,

the control equipment receives the data packet, generates a waveform diagram corresponding to the field equipment according to the data packet, configures a sub-display area and a display list of the waveform for the control equipment, outputs the sub-display area and the display list to the display module,

touching the display screen of the display module, intercepting the abnormal waveform from the front end to the back end of the abnormal waveform display along the reverse direction of the waveform diagram display transmission, dragging the abnormal waveform to the emergency management area,

the emergency management area determines the abnormal state of the field device according to the abnormal waveform and generates the current emergency management mode of the field device,

selecting at least one matched emergency management mode from a plurality of preset emergency management modes, dragging a control icon corresponding to the matched emergency management mode to a communication list,

and the communication list identifies and matches the corresponding emergency safety communication group member in the emergency management mode, and sends an emergency management instruction to the emergency safety communication group member to perform emergency management on the field equipment.

Specifically, the control device receives a data packet, and generates a waveform diagram corresponding to the field device according to the data packet, including:

analyzing the received data packet to obtain monitoring data and a device number corresponding to the field device,

the control module generates a waveform generation rule according to the waveform corresponding to the equipment number, and the waveform generation module generates a waveform diagram of the corresponding field equipment according to the corresponding waveform generation rule.

Specifically, the controlling device configuring the waveform display area and the display list includes:

the control module calls the equipment library, configures the display list according to the equipment library, so that the field equipment with the same specification and the same function in the equipment library are in the same display list,

establishing display rules according to the display lists, so that each display list corresponds to one division display area;

the sub-display areas are corresponding areas divided according to the specification of the display screen and the coordinates.

Specifically, the determining, by the emergency management area, the abnormal state of the field device according to the abnormal waveform includes:

the emergency management control module receives the abnormal waveform, processes the abnormal waveform, acquires parameter information and equipment information corresponding to the abnormal waveform, selects a plurality of abnormal threshold values corresponding to the equipment information from the abnormal database for comparison of the parameter information, acquires comparison threshold values close to or identical to the parameter information, and acquires corresponding abnormal states according to the comparison threshold values.

Specifically, the identifying and matching of the communication list with the corresponding emergency safety communication group member in the emergency management mode includes: and the communication list control module receives the matched emergency management mode, processes the matched emergency management mode, acquires the equipment information and the emergency management scheme information corresponding to the matched emergency management mode, and distributes the emergency management scheme information to emergency safety communication members under the communication list from the corresponding communication list according to the communication list matched with the equipment information.

The invention also provides an emergency management system based on the industrial internet big data, which comprises field equipment, acquisition equipment and control equipment;

the acquisition equipment is used for acquiring a data packet of the field equipment in real time and transmitting the data packet to the control equipment;

the control equipment comprises a control module, an analysis module, a waveform generation module, an equipment library, a display module, an interception module, an emergency management control module and a communication list;

after the control equipment receives the data packet, the analysis module analyzes the data packet to obtain monitoring data and an equipment number corresponding to the field equipment,

the waveform generation module receives the monitoring data and generates a corresponding waveform diagram of the field device according to a waveform generation rule;

the display list is configured according to the equipment library, so that field equipment with the same specification and the same function in the equipment library are under the same display list,

the sub-display areas are used for enabling each display list to correspond to one sub-display area according to display rules established by the display lists,

the interception module is used for intercepting an abnormal waveform,

the emergency management control module receives the abnormal waveform, processes the abnormal waveform, acquires parameter information and equipment information corresponding to the abnormal waveform, selects a plurality of abnormal threshold values corresponding to the equipment information from an abnormal database for comparison, acquires comparison threshold values similar or identical to the parameter information, acquires corresponding abnormal states according to the comparison threshold values, and generates a current emergency management mode of the field equipment,

selecting at least one matched emergency management mode from a plurality of preset emergency management modes, dragging a control icon corresponding to the matched emergency management mode to a communication list,

and the communication list identifies and matches the corresponding emergency safety communication group member in the emergency management mode, and sends an emergency management instruction to the emergency safety communication group member to perform emergency management on the field equipment.

Specifically, the sub-display areas are corresponding areas divided by coordinates according to the size of the display screen.

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

according to the method, the internet big data are formed through the previously established emergency management mode corresponding to the abnormal state or the emergency management mode corresponding to the potential known abnormal state, the emergency management mode library is established according to the obtained internet big data, when a specific abnormal state occurs, the emergency management scheme can be formed through the analysis of the abnormal state, and the emergency management scheme is distributed to corresponding personnel for timely processing. Therefore, the personnel decision is reduced, the personnel intervention is reduced, and the emergency management capability is improved.

Drawings

FIG. 1 is a general flow chart of the method of the present invention;

FIG. 2 is a flow chart of a waveform diagram for a control device receiving a data packet and generating a corresponding field device from the data packet in accordance with the present invention;

FIG. 3 is a flow chart of the control device configuring the waveform sub-display area and the display list according to the present invention;

FIG. 4 is a flow chart of the present invention in which the sub-display areas are divided into corresponding areas according to the size of the display screen and the coordinates;

FIG. 5 is a flow chart of the present invention showing the abnormal waveform being intercepted from the front end to the back end of the abnormal waveform display in the reverse direction of the waveform display transmission;

FIG. 6 is a flow chart of the present invention showing the capture module completing capture of a complete waveform of a cycle of a display front end and a display back end;

FIG. 7 is a flow chart of the emergency management area determining an abnormal state of the field device based on an abnormal waveform in accordance with the present invention;

FIG. 8 is a flow chart of the communication list identifying and matching corresponding emergency safe communication team members in the emergency management mode of the present invention;

FIG. 9 is a diagram of a display partition according to the present invention.

Detailed Description

The present invention will be described in detail with reference to the following examples.

Referring to the attached figure 1, the invention provides an emergency management method based on industrial internet big data, which comprises the following steps: with reference to figure 1 of the drawings,

s1, collecting data packets of the field devices in real time, transmitting the data packets to the control device,

s2, the control device receives the data packet, generates the waveform chart corresponding to the field device according to the data packet, configures the sub display area and the display list of the waveform, outputs to the display module,

s3, touching the display screen of the display module, intercepting the abnormal waveform from the front end to the back end of the abnormal waveform display along the reverse direction of the waveform diagram display transmission, dragging the abnormal waveform to the emergency management area,

the emergency management area determines an abnormal state of the field device according to the abnormal waveform, and generates a current emergency management mode of the field device S4,

s5, selecting at least one matching emergency management mode from a plurality of preset emergency management modes, dragging the control icon corresponding to the matching emergency management mode to a communication list,

and S6, identifying the corresponding emergency safety communication group member in the matched emergency management mode by the communication list, sending an emergency management instruction to the emergency safety communication group member, and performing emergency management on the field device.

Referring to fig. 2, the control device receives a data packet, and generates a waveform diagram of a corresponding field device according to the data packet, including:

s11, analyzing the received data packet to obtain the monitoring data and the device number corresponding to the field device,

and S12, the control module generates a waveform diagram of the corresponding field device according to the waveform generation rule corresponding to the device number and the waveform generation module generates a waveform diagram of the corresponding field device according to the corresponding waveform generation rule.

Referring to fig. 3, the controlling device configuring the waveform divided display area and the display list includes:

s21, the control module calls the device library, and configures the display list according to the device library, so that the field devices with the same specification and the same function in the device library are in the same display list,

s22, establishing display rules according to the display lists, so that each display list corresponds to one division display area;

and S23, dividing the display area into corresponding areas according to the coordinate according to the specification of the display screen.

Referring to fig. 4, the divided display areas are corresponding areas divided by coordinates according to the size of the display screen, and include:

s31, determining a total display area according to the specification of the display screen;

s32, establishing a coordinate matrix according to the total display area;

and S33, establishing the display corresponding relation of the sub-display areas according to the display list, and determining the corresponding coordinates of each sub-display area according to the set display corresponding relation.

Referring to fig. 9, fig. 9 includes a display 18, a display list area 10 is provided on the display 18, a plurality of display lists are provided in the display list area, and the display lists correspond to a first sub-display area 12, a second sub-display area 14, a third sub-display area 17, and a fourth sub-display area 19 provided in the display 18 one to one.

A communication list display area 16 is provided on the right side of the display 18, and a plurality of communication lists 15 are provided in the communication list display area 16.

An emergency management area 13 is provided in a middle position of the display 18.

The above list is only one way that the present invention can be implemented, and there are many more ways that the present invention can be implemented.

Referring to fig. 5, intercepting the abnormal waveform from the front end to the rear end of the abnormal waveform display in the reverse direction of the waveform diagram display transmission includes:

s41, recording abnormal waveform at time T1 as the display front end, recording abnormal waveform at time T2 after time T1 as the display rear end,

and S42, drawing a straight line from any position of the front display end to any position of the rear display end on the display screen, and finishing the interception of a complete oscillogram of one period of the front display end and the rear display end by an interception module.

Referring to fig. 6, the intercepting module completing intercepting of the complete waveform diagram of one cycle of the display front end and the display back end includes:

s51, determining the touch point position by displaying the coordinate set of the front touch point and the coordinate set of the back touch point,

s52, obtaining an intercepting track according to the coordinate set displaying the front-end touch point and the coordinate set displaying the rear-end touch point,

and S53, finishing a complete waveform diagram in one period according to the pixel information of the waveform diagram of the intercepted track corresponding to the sub-display area.

In the above, the complete waveform pattern is one unit of one waveform period or a plurality of consecutive waveform periods.

Referring to fig. 7, the determining, by the emergency management area, the abnormal state of the field device according to the abnormal waveform includes:

s61, the emergency management control module receives the abnormal waveform, processes the abnormal waveform, obtains the parameter information and the equipment information corresponding to the abnormal waveform,

s62, selecting a plurality of abnormal threshold values corresponding to the equipment information in the abnormal database for comparison, obtaining comparison threshold values similar or identical to the parameter information,

and S63, acquiring the corresponding abnormal state according to the comparison threshold.

Referring to fig. 8, the identifying and matching the corresponding emergency security communication team member in the emergency management mode by the communication list includes:

s71: the communication list control module receives the matched emergency management mode, processes the matched emergency management mode,

s72: acquiring the equipment information and the emergency management scheme information corresponding to the matched emergency management mode,

s73: and according to the communication list matched with the equipment information, distributing the emergency management scheme information to emergency safety communication members under the communication list from the corresponding communication list.

The invention also provides an emergency management system based on the industrial internet big data, which comprises field equipment, acquisition equipment and control equipment;

the acquisition equipment is used for acquiring a data packet of the field equipment in real time and transmitting the data packet to the control equipment;

the control equipment comprises a control module, an analysis module, a waveform generation module, an equipment library, a display module, an interception module, an emergency management control module and a communication list;

after the control equipment receives the data packet, the analysis module analyzes the data packet to obtain monitoring data and an equipment number corresponding to the field equipment,

the waveform generation module receives the monitoring data and generates a corresponding waveform diagram of the field device according to a waveform generation rule;

the display list is configured according to the equipment library, so that field equipment with the same specification and the same function in the equipment library are under the same display list,

the sub-display areas are used for enabling each display list to correspond to one sub-display area according to display rules established by the display lists,

the interception module is used for intercepting an abnormal waveform,

the emergency management control module receives the abnormal waveform, processes the abnormal waveform, acquires parameter information and equipment information corresponding to the abnormal waveform, selects a plurality of abnormal threshold values corresponding to the equipment information from an abnormal database for comparison, acquires comparison threshold values similar or identical to the parameter information, acquires corresponding abnormal states according to the comparison threshold values, and generates a current emergency management mode of the field equipment,

selecting at least one matched emergency management mode from a plurality of preset emergency management modes, dragging a control icon corresponding to the matched emergency management mode to a communication list,

and the communication list identifies and matches the corresponding emergency safety communication group member in the emergency management mode, and sends an emergency management instruction to the emergency safety communication group member to perform emergency management on the field equipment.

According to the method, the internet big data are formed through the previously established emergency management mode corresponding to the abnormal state or the emergency management mode corresponding to the potential known abnormal state, the emergency management mode library is established according to the obtained internet big data, when a specific abnormal state occurs, the emergency management scheme can be formed through the analysis of the abnormal state, and the emergency management scheme is distributed to corresponding personnel for timely processing. Thereby reducing personnel decisions, reducing personnel intervention, and improving emergency management capabilities, in particular. The method comprises the steps of acquiring a data packet of field equipment in real time, transmitting the data packet to control equipment, receiving the data packet by the control equipment, generating a waveform diagram corresponding to the field equipment according to the data packet, configuring a sub-display area and a display list of waveforms by the control equipment, outputting the sub-display area and the display list to a display module, touching a display screen of the display module, intercepting an abnormal waveform from the front end to the rear end of abnormal waveform display along the reverse direction of waveform diagram display transmission, dragging the abnormal waveform to an emergency management area, determining the abnormal state of the field equipment according to the abnormal waveform by the emergency management area, generating a current emergency management mode of the field equipment, selecting at least one matched emergency management mode from a plurality of preset emergency management modes, dragging a control icon corresponding to the matched emergency management mode to a communication list, identifying a corresponding emergency safety communication group member under the matched emergency management mode by the communication list, and sending an emergency management instruction to an emergency safety communication member to perform emergency management on the field equipment.

The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts of the present invention. The foregoing is only a preferred embodiment of the present invention, and it should be noted that there are objectively infinite specific structures due to the limited character expressions, and it will be apparent to those skilled in the art that a plurality of modifications, decorations or changes may be made without departing from the principle of the present invention, and the technical features described above may be combined in a suitable manner; such modifications, variations, combinations, or adaptations of the invention using its spirit and scope, as defined by the claims, may be directed to other uses and embodiments.

Claims (7)

1. The emergency management method based on the industrial internet big data is characterized by comprising the following steps:

according to the data packet of the field device collected in real time and transmitting the data packet to the control device,

the control equipment receives the data packet, generates a waveform diagram corresponding to the field equipment according to the data packet, configures a sub-display area and a display list of the waveform for the control equipment, outputs the sub-display area and the display list to the display module,

touching the display screen of the display module, intercepting the abnormal waveform from the front end to the back end of the abnormal waveform display along the reverse direction of the waveform diagram display transmission, dragging the abnormal waveform to the emergency management area,

the emergency management area determines the abnormal state of the field device according to the abnormal waveform and generates the current emergency management mode of the field device,

selecting at least one matched emergency management mode from a plurality of preset emergency management modes, dragging a control icon corresponding to the matched emergency management mode to a communication list,

and the communication list identifies and matches the corresponding emergency safety communication group member in the emergency management mode, and sends an emergency management instruction to the emergency safety communication group member to perform emergency management on the field equipment.

2. The industrial internet big data-based emergency management method according to claim 1, wherein the control device receives a data packet, and generates a waveform diagram of a corresponding field device according to the data packet, and the method comprises the following steps:

analyzing the received data packet to obtain monitoring data and a device number corresponding to the field device,

the control module generates a waveform generation rule according to the waveform corresponding to the equipment number, and the waveform generation module generates a waveform diagram of the corresponding field equipment according to the corresponding waveform generation rule.

3. The industrial internet big data-based emergency management method according to claim 1, wherein the controlling device configuring the waveform sub-display area and the display list includes:

the control module calls the equipment library, configures the display list according to the equipment library, so that the field equipment with the same specification and the same function in the equipment library are in the same display list,

establishing display rules according to the display lists, so that each display list corresponds to one division display area;

the sub-display areas are corresponding areas divided according to the specification of the display screen and the coordinates.

4. The industrial internet big data-based emergency management method according to claim 1, wherein the emergency management area determining the abnormal state of the field device according to the abnormal waveform includes:

the emergency management control module receives the abnormal waveform, processes the abnormal waveform, acquires parameter information and equipment information corresponding to the abnormal waveform, selects a plurality of abnormal threshold values corresponding to the equipment information from the abnormal database for comparison of the parameter information, acquires comparison threshold values close to or identical to the parameter information, and acquires corresponding abnormal states according to the comparison threshold values.

5. The industrial internet big data-based emergency management method according to claim 1, wherein the communication list identifying and matching corresponding emergency security communication group members in the emergency management mode comprises: and the communication list control module receives the matched emergency management mode, processes the matched emergency management mode, acquires the equipment information and the emergency management scheme information corresponding to the matched emergency management mode, and distributes the emergency management scheme information to emergency safety communication members under the communication list from the corresponding communication list according to the communication list matched with the equipment information.

6. The emergency management system based on industrial internet big data is characterized by comprising

The system comprises field equipment, acquisition equipment and control equipment;

the acquisition equipment is used for acquiring a data packet of the field equipment in real time and transmitting the data packet to the control equipment;

the control equipment comprises a control module, an analysis module, a waveform generation module, an equipment library, a display module, an interception module, an emergency management control module and a communication list;

after the control equipment receives the data packet, the analysis module analyzes the data packet to obtain monitoring data and an equipment number corresponding to the field equipment,

the waveform generation module receives the monitoring data and generates a corresponding waveform diagram of the field device according to a waveform generation rule;

the display list is configured according to the equipment library, so that field equipment with the same specification and the same function in the equipment library are under the same display list,

the sub-display areas are used for enabling each display list to correspond to one sub-display area according to display rules established by the display lists,

the interception module is used for intercepting an abnormal waveform,

the emergency management control module receives the abnormal waveform, processes the abnormal waveform, acquires parameter information and equipment information corresponding to the abnormal waveform, selects a plurality of abnormal threshold values corresponding to the equipment information from an abnormal database for comparison, acquires comparison threshold values similar or identical to the parameter information, acquires corresponding abnormal states according to the comparison threshold values, and generates a current emergency management mode of the field equipment,

selecting at least one matched emergency management mode from a plurality of preset emergency management modes, dragging a control icon corresponding to the matched emergency management mode to a communication list,

and the communication list identifies and matches the corresponding emergency safety communication group member in the emergency management mode, and sends an emergency management instruction to the emergency safety communication group member to perform emergency management on the field equipment.

7. The industrial internet big data-based emergency management system according to claim 6, wherein the sub-display areas are corresponding areas divided by coordinates according to the size of the display screen.

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