CN117347746B

CN117347746B - Safety lamp management system and safety lamp management method

Info

Publication number: CN117347746B
Application number: CN202311142445.9A
Authority: CN
Inventors: 李正伟
Original assignee: Yunzhihui Wuhan Technology Service Co ltd
Current assignee: Yunzhihui Wuhan Technology Service Co ltd
Priority date: 2023-09-04
Filing date: 2023-09-04
Publication date: 2024-06-18
Anticipated expiration: 2043-09-04
Also published as: CN117347746A

Abstract

The invention relates to the technical field of equipment detection, and discloses an safety lamp management system and an safety lamp management method, wherein the system comprises the following components: acquiring production data information generated by target equipment in the production process in real time, and comparing the production data information with preset alarm conditions; determining whether the target equipment is in a preset abnormal state according to the comparison result; if yes, determining an alarm type corresponding to the abnormal event of the target equipment, and acquiring an alarm triggering mode corresponding to the alarm type through a preset alarm mapping table; and carrying out abnormal response on the abnormal event based on the alarm triggering mode and a preset response strategy. According to the invention, when the target equipment is in the preset abnormal state, the alarm triggering mode of the alarm type corresponding to the abnormal event is determined, and the abnormal event is responded based on the alarm triggering mode and the preset response strategy, so that the technical problem that the safety lamp management system in the prior art cannot early warn other abnormal conditions in the production process except the abnormal operation of the equipment is solved.

Description

Safety lamp management system and safety lamp management method

Technical Field

The invention relates to the technical field of equipment detection, in particular to an safety lamp management system and an safety lamp management method.

Background

With the rapid development of industrial internet, more and more factories introduce ANDON systems (intelligent safety management systems) for field anomaly management in the production process. Wherein ANDON is a traction type auxiliary management system for production, which can rapidly respond and treat abnormal problems in the production process and improve the production efficiency.

The existing safety lamp management system can display the basic running state of the equipment through the three-color lamp, so that when the equipment is abnormal in the production process, a user can respond and process according to the display condition of the three-color lamp. However, the method can only perform early warning on abnormal operation of equipment, and cannot perform early warning on other abnormal conditions in the production process.

The foregoing is provided merely for the purpose of facilitating understanding of the technical solutions of the present invention and is not intended to represent an admission that the foregoing is prior art.

Disclosure of Invention

The invention mainly aims to provide an safety lamp management system and an safety lamp management method, and aims to solve the technical problem that the safety lamp management system in the prior art cannot early warn other abnormal conditions in the production process except equipment operation abnormality.

To achieve the above object, the present invention provides an safety management system, the An Dengguan management system comprising: an anomaly detection module and an anomaly response module;

The abnormality detection module is used for acquiring production data information generated by the target equipment in the production process in real time and comparing the production data information with preset alarm conditions;

The abnormality detection module is further used for determining whether the target equipment is in a preset abnormal state according to the comparison result;

the abnormality detection module is further used for determining an alarm type corresponding to an abnormal event of the target equipment if the abnormality detection module is in use, and acquiring an alarm triggering mode corresponding to the alarm type through a preset alarm mapping table;

the abnormal response module is used for carrying out abnormal response on the abnormal event based on the alarm triggering mode and a preset response strategy.

Optionally, the An Dengguan processing system further includes: a group management module;

the group management module is used for determining the equipment abnormality level corresponding to the abnormal event based on the alarm triggering mode and judging whether to carry out abnormality reporting processing on the abnormal event according to the equipment abnormality level;

The group management module is further configured to configure a response group and a response notification mode based on the alarm triggering mode if the group management module is in the active state;

the group management module is further configured to determine a preset response policy corresponding to the abnormal event based on the response group and the response notification manner;

The abnormal response module is further used for determining an alarm code according to the alarm triggering mode and carrying out abnormal reporting processing on the abnormal event based on the alarm code and the preset response strategy.

Optionally, the response notification mode includes: a mail notification mode; the abnormality detection module is further used for acquiring equipment identification information and equipment position information corresponding to the target equipment;

the abnormality detection module is further configured to obtain alarm description information corresponding to the abnormal event through the preset alarm mapping table, and generate device interface information based on the device identification information, the device location information, the alarm description information and the device abnormality level;

The abnormal response module is further used for determining a response notification mode corresponding to the abnormal event according to the preset response strategy;

and the abnormal response module is further used for sending the equipment interface information to a target response group corresponding to the abnormal event through a mail server interface and the alarm code so as to carry out abnormal reporting processing if the response notification mode is the mail notification mode.

Optionally, the abnormal response module is further configured to obtain, in real time, an abnormal response time and an event processing state corresponding to the abnormal event;

The abnormal response module is further configured to determine a hierarchical response user corresponding to the target response group when the abnormal response time exceeds a preset response time threshold and the event processing state is in a to-be-processed state;

the abnormal response module is further used for determining the hierarchical response time corresponding to the abnormal event according to the equipment abnormal level;

The exception response module is further configured to perform exception reporting processing on the exception event through a preset level response mode based on the level response user and the level response time.

Optionally, the An Dengguan processing system further includes: an information storage module;

The abnormal response module is further used for generating an alarm single number corresponding to the abnormal event when the abnormal reporting processing is completed;

the abnormal response module is further used for obtaining each reporting level in the abnormal reporting process and the reporting time corresponding to each reporting level;

The abnormal response module is further used for establishing an information record table based on the alarm single number, each reporting level and the reporting time, and storing the information record table into the information storage module;

and the information storage module is used for determining the alarm single number to be queried according to the report information query signal when receiving the report information query signal, and querying report detail information corresponding to the alarm single number to be queried through the information record table.

Optionally, the abnormal response module is further configured to generate a query condition in a joint query manner when receiving the timeout information display request, and output the query condition to the information storage module, where the query condition carries a chart type identifier, an alarm type to be queried, and a query time period;

The information storage module is further used for acquiring a target chart template corresponding to the chart type identifier from a preset template library according to the chart type identifier when the query condition is received;

The information storage module is further configured to determine query information based on the type of the alarm to be queried and the query time period, and determine information to be displayed based on the query information and a preset time calculation mode, where the information to be displayed includes: timeout rate and average time trend;

The information storage module is further used for displaying the timeout rate and the average time trend in a chart form based on the echartis plug-in technology and the target chart template.

Optionally, the information storage module is further configured to determine, according to the target chart template, a target data format corresponding to the timeout rate and the average time trend, where the target data format is a data format required by an echorts plugin;

The information storage module is further configured to integrate the timeout rate and the average time trend into target information to be displayed in the target data format;

The information storage module is further used for converting the information to be displayed of the target into a corresponding target chart through an echartis plug-in technology and displaying the target chart.

In addition, in order to achieve the above objective, the present invention further provides an ampere management method based on the An Dengguan management system, where the An Dengguan management method is applied to an interface user end, and the An Dengguan management method includes:

The abnormality detection module acquires production data information generated in the production process of the target equipment in real time, and compares the production data information with preset alarm conditions;

The abnormality detection module determines whether the target equipment is in a preset abnormal state according to the comparison result;

The abnormality detection module determines an alarm type corresponding to an abnormal event of the target equipment when the target equipment is in a preset abnormal state, and obtains an alarm triggering mode corresponding to the alarm type through a preset alarm mapping table;

And the abnormal response module performs abnormal response on the abnormal event based on the alarm triggering mode and a preset response strategy.

Optionally, before the step of performing the abnormal response on the abnormal event by the abnormal response module based on the alarm triggering mode and the preset response policy, the method further includes:

The group management module determines the equipment abnormality level corresponding to the abnormal event based on the alarm triggering mode, and judges whether to report the abnormality event abnormally or not according to the equipment abnormality level;

The group management module configures a response group and a response notification mode based on the alarm triggering mode when carrying out abnormal reporting processing on the abnormal event;

the group management module determines a preset response strategy corresponding to the abnormal event based on the response group and the response notification mode;

The step of the abnormal response module for carrying out abnormal response on the abnormal event based on the alarm triggering mode and a preset response strategy comprises the following steps:

and the abnormal response module determines an alarm code according to the alarm triggering mode, and performs abnormal reporting processing on the abnormal event based on the alarm code and the preset response strategy.

Optionally, the response notification mode includes: a mail notification mode; the step of performing exception reporting processing on the exception event based on the alarm code and the preset response strategy comprises the following steps:

the abnormality detection module acquires equipment identification information and equipment position information corresponding to the target equipment;

the abnormality detection module obtains alarm description information corresponding to the abnormal event through the preset mapping table, and generates equipment interface information based on the equipment identification information, the equipment position information, the alarm description information and the equipment abnormality level;

the abnormal response module determines a response notification mode corresponding to the abnormal event according to the preset response strategy;

and when the response notification mode is the mail notification mode, the abnormal response module sends the equipment interface information to a target response group corresponding to the abnormal event through a mail server interface and the alarm code so as to carry out abnormal reporting processing.

In the invention, an abnormality detection module and an abnormality response module are disclosed; the abnormality detection module is used for acquiring production data information generated in the production process of the target equipment in real time and comparing the production data information with preset alarm conditions; determining whether the target equipment is in a preset abnormal state according to the comparison result; if yes, determining an alarm type corresponding to the abnormal event of the target equipment, and acquiring an alarm triggering mode corresponding to the alarm type through a preset alarm mapping table; the abnormal response module is used for carrying out abnormal response on the abnormal event based on the alarm triggering mode and a preset response strategy; compared with the prior art, the method and the device for early warning of the abnormal conditions except the abnormal operation of the equipment can not be used for early warning of the abnormal conditions except the abnormal operation of the equipment through the basic operation state of the three-color lamp display equipment, and the technical problem that the safety lamp management system in the prior art can not be used for early warning of the abnormal conditions except the abnormal operation of the equipment is solved because whether the target equipment is in the preset abnormal state or not is determined according to the comparison result of the production data information of the target equipment and the preset alarm condition, and the alarm triggering mode of the alarm type corresponding to the abnormal event is determined when the target equipment is in the preset abnormal state, so that the abnormal event is responded based on the alarm triggering mode and the preset response strategy.

Drawings

FIG. 1 is a block diagram of a first embodiment of an security management system according to the present invention;

FIG. 2 is a block diagram of a second embodiment of an security management system according to the present invention;

FIG. 3 is a flow chart of a second embodiment of the security management system of the present invention;

FIG. 4 is a block diagram of a third embodiment of an security management system according to the present invention;

FIG. 5 is a flowchart of a first embodiment of an installation management method based on the An Dengguan management system according to the present invention;

fig. 6 is a flowchart of a second embodiment of the safety management method based on the An Dengguan management system according to the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments, all embodiments obtained by persons skilled in the art based on the embodiments in the present invention without making creative efforts, belong to the protection scope of the present invention.

It should be noted that the descriptions of "first," "second," etc. in the embodiments of the present invention are for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

Referring to fig. 1, fig. 1 is a block diagram illustrating a first embodiment of an security management system according to the present invention.

As shown in fig. 1, the security management system of the present embodiment includes: an anomaly detection module 100 and an anomaly response module 200.

The anomaly detection module 100 is configured to obtain production data information generated by a target device in a production process in real time, and compare the production data information with a preset alarm condition.

The target device may be any device that is produced in a factory, and this embodiment is not limited thereto.

It should be appreciated that the production data information described above may be data information that is generated and recorded by the target device during the production process, for example: the material quantity, the product yield, etc., which are not limited in this embodiment.

It will be appreciated that the preset alarm condition may be an equipment abnormality or other abnormal production condition occurring in the production process, and the condition that needs to be alerted, for example: equipment failure, product yield drop, lack of materials, etc., which are not limited in this embodiment.

In a specific implementation, this embodiment may predefine all abnormal situations that may occur during the production process, and form a preset alarm condition based on these abnormal situations. For example, abnormal conditions that may occur during the production process include: the information such as parameter information, qualified product yield range, minimum material quantity in the production line and the like when the equipment normally operates can be predefined in preset alarm conditions, and if the related data in the production data information of the equipment does not meet the normal data range set in the preset alarm conditions, an alarm can be triggered. Thereafter, during the production process, the abnormality detection module 100 may acquire, in real time, production data information such as equipment operation parameter information of the production equipment during the production process, yield of the produced product, and the amount of the remaining materials in the production line, and compare the production data information such as the equipment operation parameter information, the yield of the produced product, and the amount of the remaining materials in the production line with normal operation parameter information set in a preset alarm condition, a normal product yield range, and a minimum amount of the remaining materials in the production line, so as to determine a state corresponding to the target equipment according to the comparison result, that is, determine whether an abnormal situation occurs.

The abnormality detection module 100 is further configured to determine whether the target device is in a preset abnormal state according to the comparison result.

It should be noted that, the preset abnormal state may be a state corresponding to when an abnormality occurs in the device. In practical application, if the equipment fails, or the yield of products produced by the equipment is unqualified, or the equipment lacks materials corresponding to a production line, the equipment can be judged to be in a preset abnormal state.

In a specific implementation, after the abnormality detection module 100 compares production data information such as the device operation parameter information, the yield of the produced product, the quantity of the remaining materials in the production line, and the like with the normal operation parameter information, the normal product yield range, and the minimum quantity of the remaining materials in the production line set in the preset alarm condition, if it is found that the operation parameter of the target device is abnormal, or the yield of the produced product exceeds the normal product yield range, or the quantity of the remaining materials in the production line corresponding to the device is less than the preset minimum quantity of the material in the production line, the abnormality detection module 100 may determine that the target device is currently in the preset abnormal state.

The anomaly detection module 100 is further configured to determine an alarm type corresponding to an anomaly event of the target device if yes, and obtain an alarm triggering manner corresponding to the alarm type through a preset alarm mapping table.

It should be understood that the abnormal event may be an event related to occurrence of an abnormal condition in the target device; accordingly, the alarm type may be a type that triggers an alarm of the target device. In practical application, if the operation parameters of the target equipment are found to be abnormal according to the comparison result, namely, the target equipment is in fault, the abnormal event can be an equipment fault event at the moment, and the alarm type corresponding to the abnormal event can be equipment fault alarm; if the yield of the product produced by the target equipment is found to be beyond the range of the yield of the normal product according to the comparison result, the abnormal event can be a yield abnormal event, and the alarm type corresponding to the abnormal event can be a yield unqualified alarm; if the residual materials of the production line corresponding to the target equipment are found to be less than the preset minimum quantity of the materials of the production line according to the comparison result, the abnormal event can be a production line material shortage event, and the alarm type corresponding to the abnormal event can be a material shortage alarm.

It can be understood that the preset alarm mapping table may be a mapping table that is pre-established and stores a correspondence between an alarm type and an alarm triggering mode. The alarm triggering mode may be a mode of triggering the target device to alarm, and specifically, in this embodiment, the alarm may be triggered by alarm codes corresponding to each abnormal event. In addition, the preset alarm mapping table can be associated with prompt text information corresponding to the alarm type, and the user can customize the prompt text information, wherein specific reasons for generating the alarm and corresponding abnormal solutions can be described in the prompt text information, and the embodiment is not limited to the specific reasons, wherein the abnormal solutions can be generated according to an abnormal experience library accumulated by the An Dengguan management system.

In a specific implementation, all possible abnormal events of the target equipment in the production process can be summarized, so that all possible alarm types are determined, corresponding alarm triggering modes are set for the alarm types, in addition, in order to improve the equipment abnormal alarm efficiency, a preset alarm mapping table can be established based on the alarm types and the corresponding alarm triggering conditions, and therefore when the target equipment is in a preset abnormal state, the corresponding alarm triggering modes can be directly inquired from the preset alarm mapping table according to the alarm types corresponding to the equipment.

The abnormal response module 200 is configured to perform abnormal response to the abnormal event based on the alarm triggering manner and a preset response policy.

It should be noted that the preset response policy may be a preset policy for notifying the user of the alarm information, where the preset response policy includes the user to be notified and a manner of notifying the user (such as a mail, a short message, a notification bar, etc.), which is not limited in this embodiment.

It should be appreciated that the exception response module 200 may record the detailed exception handling process after the exception handling is completed and accumulate it into an exception experience library.

In a specific implementation, the abnormal response module 200 in this embodiment may determine, according to a preset response policy, a target user to be notified of an abnormal event corresponding to a target device and a method for notifying the target user, and if the method for notifying the target user is message pushing, the abnormal response module 200 may call a notification field of a mobile device of the target user and notify the target user in an alarm triggering manner, thereby implementing an abnormal response to the abnormal event.

The embodiment discloses an abnormality detection module and an abnormality response module; the abnormality detection module is used for acquiring production data information generated in the production process of the target equipment in real time and comparing the production data information with preset alarm conditions; determining whether the target equipment is in a preset abnormal state according to the comparison result; if yes, determining an alarm type corresponding to the abnormal event of the target equipment, and acquiring an alarm triggering mode corresponding to the alarm type through a preset alarm mapping table; the abnormal response module is used for carrying out abnormal response on the abnormal event based on the alarm triggering mode and a preset response strategy; compared with the prior art, the basic operation state of the three-color lamp display device cannot be used for early warning of abnormal conditions except for equipment operation abnormality, because the embodiment determines whether the target equipment is in the preset abnormal state according to the comparison result of the production data information of the target equipment and the preset alarm condition, and determines the alarm triggering mode of the alarm type corresponding to the abnormal event when the target equipment is in the preset abnormal state, the abnormal event is responded based on the alarm triggering mode and the preset response strategy, and the technical problem that the safety lamp management system cannot be used for early warning of other abnormal conditions except for equipment operation abnormality in the production process in the prior art is solved, and further the production efficiency is improved.

Referring to fig. 2, fig. 2 is a block diagram illustrating a second embodiment of the lighting management system according to the present invention. Based on the first embodiment of An Dengguan management system described above, a second embodiment of the present invention is provided.

As shown in fig. 2, the An Dengguan processing system further includes: the group management module 300.

The group management module 300 is configured to determine an equipment exception level corresponding to the exception event based on the alarm triggering manner, and determine whether to perform exception reporting processing on the exception event according to the equipment exception level.

It should be noted that, the above device anomaly level may be a level for characterizing severity of an anomaly event, and in this embodiment, the device anomaly level may include: the higher the equipment abnormality level is, the more urgent the abnormality event is, so that the embodiment can judge whether to perform abnormality reporting processing on the abnormality event according to the equipment abnormality level corresponding to the abnormality event.

It may be understood that the above-mentioned exception reporting process may be a process of reporting an exception condition occurring in the target device to a related manager.

In a specific implementation, the group management module 300 may perform an exception reporting process on an exception event based on an alarm code configuration in an alarm triggering manner, specifically, may perform an exception reporting process on the exception event based on a device exception level of the exception event through the alarm code configuration, so that the subsequent group management module 300 may directly determine whether to perform the exception reporting process on the exception event according to the device exception level corresponding to the exception event.

The group management module 300 is further configured to configure a response group and a response notification manner based on the alarm triggering manner if yes.

It should be understood that the response group may be a group that needs to be reported for the alarm event, where the group includes a responsible person corresponding to the abnormal event.

It may be appreciated that the response notification manner may be a manner of notifying the corresponding responsible person of the abnormal event, for example: mail notification, message pushing, short message notification, etc., which is not limited in this embodiment. In the embodiment, the message pushing mode can call the notification bar of the mobile equipment of the user to carry out message pushing notification so as to achieve the aim of reminding the responsible person; in the short message notification mode, the user mobile terminal is required to configure the SIM card to realize the short message notification.

The group management module 300 is further configured to determine a preset response policy corresponding to the abnormal event based on the response group and the response notification manner.

It can be understood that, in this embodiment, the group to be reported and the response notification manner of the abnormal event may be configured according to the alarm code associated with the abnormal event, and the preset response policy corresponding to the abnormal event may be generated based on the group to be reported and the response notification manner of the abnormal event.

The exception response module 200 is further configured to determine an alarm code according to the alarm triggering manner, and perform exception reporting processing on the exception event based on the alarm code and the preset response policy.

It should be noted that, the alarm code may be a code for triggering the target device to alarm.

In a specific implementation, if the group management module 300 determines that the abnormal event needs to be submitted according to the device abnormal level corresponding to the abnormal event, at this time, a response group and a response notification mode that need to be submitted when the abnormal event is submitted can be configured based on an alarm code in an alarm triggering mode, and a preset response policy is generated based on the response group and the response notification mode, so that the abnormal response module 200 can send the alarm event to a relevant responsible person in the response group through the alarm code corresponding to the alarm triggering mode based on the response notification mode corresponding to the abnormal event, so as to implement the abnormal reporting process of the abnormal event.

Further, the response notification mode includes: a mail notification mode; the abnormality detection module 100 is further configured to obtain device identification information and device location information corresponding to the target device.

It should be understood that the mail notification method may be a method of notifying the relevant responsible person corresponding to the abnormal event by sending a mail.

It can be understood that the device identification information may be information for uniquely identifying each device in the production line; accordingly, the location information of the device may be the location information of the device in the factory, such as the workshop and the production line corresponding to the device, which is not limited in this embodiment.

The abnormality detection module 100 is further configured to obtain, through the preset alarm mapping table, alarm description information corresponding to the abnormal event, and generate device interface information based on the device identification information, the device location information, the alarm description information, and the device abnormality level.

It should be noted that, the alarm description information may be information describing the cause of the abnormal event and the solution. In practical application, in addition to storing the corresponding relation between the alarm type and the alarm triggering mode corresponding to the abnormal event, the preset alarm mapping table is also associated with alarm description information corresponding to the abnormal event, so that the abnormality detection module 100 can directly obtain the alarm description information corresponding to the abnormal event from the preset alarm mapping table.

It should be understood that the device interface information may be information generated by integrating the information of the device identifier, the device location, the device description information, and the device abnormality level of the target device.

The abnormal response module 200 is further configured to determine a response notification manner corresponding to the abnormal event according to the preset response policy.

The abnormal response module 200 is further configured to send the device interface information to a target response group corresponding to the abnormal event through a mail server interface and the alarm code, so as to perform abnormal reporting processing if the response notification mode is the mail notification mode.

It will be appreciated that the mail server interface described above may be an interface for sending mail to a user. In this embodiment, the abnormal response module 200 may call a mail server interface to send a mail, where the mail server may be set up at the user side.

It should be understood that the target response group may be a group that needs to be reported for the abnormal event.

In a specific implementation, the anomaly detection module 100 may first obtain the device identifier of the target device and the device location information corresponding to the workshop and the production line, then may obtain the alarm description information corresponding to the anomaly event from the preset mapping table, integrate the device identifier information, the device location information, the alarm description information and the device anomaly level, obtain integrated device interface information, at this time, the anomaly response module 200 may determine a response notification mode corresponding to the anomaly event, call the mail server interface when the response notification mode is a mail notification mode, and send the device interface information to the target response group corresponding to the anomaly event through the alarm code, thereby implementing the anomaly reporting process of the anomaly event.

Further, the abnormal response module 200 is further configured to obtain, in real time, an abnormal response time and an event processing state corresponding to the abnormal event.

It should be appreciated that the anomaly response time described above may be the time from an anomaly event alert to the time that the responsible person processes the alert.

It may be understood that the event processing state may be a state for indicating whether the abnormal event is processed, and in this embodiment, the event processing state may include: the processing method comprises a to-be-processed state and a processed state, wherein the to-be-processed state can be a state corresponding to an abnormal event when a responsible person corresponding to the abnormal event does not process the abnormal event; the processed state may be a state corresponding to an abnormal event when a responsible person corresponding to the abnormal event has processed the abnormal event.

In a specific implementation, after the abnormal response module 200 alarms based on the abnormal event, the responsible person corresponding to the abnormal event needs to receive the alarm, and the time from the alarm of the abnormal response module 200 to the alarm receiving of the responsible person is the abnormal response time, in this embodiment, the abnormal response module 200 may monitor the abnormal response time and acquire the abnormal response time in real time, and in addition, the abnormal response module 200 may monitor the event processing state corresponding to the abnormal event and acquire the event processing state corresponding to the abnormal event in real time.

The abnormal response module 200 is further configured to determine a hierarchical response user corresponding to the target response group when the abnormal response time exceeds a preset response time threshold and the event processing state is in a pending state.

It should be noted that, the preset response time threshold may be a time for the responsible person corresponding to the longest waiting for the abnormal event to process the abnormal event. In practical application, after the abnormal response module 200 triggers an alarm based on an abnormal event, a corresponding responsible person can wait for alarm receiving processing, but when the waiting time exceeds the set longest waiting time, that is, when the abnormal response time exceeds the preset response time threshold, the responsible person does not process the abnormal event yet, that is, when the event processing state corresponding to the abnormal event is still in a pending state, the abnormal reporting processing can be triggered.

It should be understood that, in the present solution, an exception reporting manner may be used to perform exception reporting processing on an exception event, that is, notify a user in a level-by-level manner according to a preset time interval and a set user level.

It can be appreciated that the level response user may be a user corresponding to each preset notification level.

The exception response module 200 is further configured to determine a hierarchical response time corresponding to the exception event according to the equipment exception level.

It will be appreciated that the hierarchy response time may be the time to wait for a user in each hierarchy to respond to an exception event. In practical application, the embodiment may set the hierarchical response time according to the equipment abnormality level corresponding to the abnormal event, for example, if the equipment abnormality level corresponding to the abnormal event is a middle level, the hierarchical response time may be set to 30 minutes; if the device abnormality level corresponding to the abnormality event is high, the hierarchy response time may be set to 15 minutes, which is not limited in this embodiment.

The exception response module 200 is further configured to perform exception reporting processing on the exception event by using a preset level response manner based on the level response user and the level response time.

It should be noted that, the preset level response mode may be a mode of notifying the user to respond to the abnormal event in a level-by-level manner according to the preset time interval and the set user level. In practical applications, the abnormal response module 200 in this embodiment may divide the levels of the users according to the positions or the working contents of each user in the target response group to obtain level response users, and determine the level response time corresponding to the abnormal event according to the device abnormal level corresponding to the abnormal event. When the exception response module 200 performs exception reporting processing on the exception event through the preset level response mode, the exception response module may wait for 30 minutes and report the exception event to the first layer response user, if the first layer response user does not respond to the exception event within 20 minutes, the exception response module may report the exception event to the second layer response user, if the second layer response user does not respond to the exception event within 15 minutes, the exception response module may report the exception event to the third layer response user, and so on until the user in the target response group responds to the exception event.

In a specific implementation, referring to fig. 3, fig. 3 is a flow chart of a second embodiment of the security management system of the present invention. As shown in fig. 3, in this embodiment, the alarm triggering may be performed by using two modes, i.e., manual alarm triggering and automatic alarm triggering, where a user may trigger an alarm by selecting an alarm type, an alarm code, or a means after confirming information such as an alarm problem, and may further receive internal or external information through a data interface to perform interface automatic alarm. After receiving the alarm information, the system can match the alarm information and inform the alarm information to the managed group, wherein the abnormal response module 200 in the system can monitor the response time in real time and report the overtime time when the abnormal response time exceeds the preset response time threshold, the responsible person corresponding to the abnormal event in the group can receive the alarm after receiving the alarm information, and after that, the abnormal response module 200 can also perform abnormal processing on the abnormal processing, close the alarm and feed back the alarm information when the processing is completed.

In the embodiment, the group management module determines the preset response strategy corresponding to the abnormal event based on the response group configured in the alarm triggering mode and the response notification mode, so that the abnormal response module performs abnormal reporting processing on the abnormal event based on the alarm code determined in the alarm triggering mode and the preset response strategy, thereby improving the reporting efficiency of the abnormal event, further rapidly responding to and processing the abnormal problem in the production process, and improving the production efficiency. Meanwhile, when the abnormal response time of the abnormal event exceeds a preset response time threshold value and the event processing state of the abnormal event is in a to-be-processed state, the abnormal response module can report and process the abnormal event in an abnormal manner through a preset level response mode, so that the response efficiency of the abnormal condition in the production process is further improved.

Referring to fig. 4, fig. 4 is a block diagram illustrating a second embodiment of the security management system according to the present invention. Based on the above-mentioned An Dengguan management system embodiments, a third embodiment of the present invention is provided.

As shown in fig. 4, the An Dengguan processing system further includes: an information storage module 400.

The exception response module 200 is further configured to generate an alarm single number corresponding to the exception event when the exception reporting process is completed.

It should be noted that, the alarm single number may be a single number for identifying an abnormal event, where in this embodiment, each abnormal event has a single number that is uniquely corresponding to the abnormal event, that is, an alarm information unique record number.

The exception response module 200 is further configured to obtain each reporting level in the exception reporting process and a reporting time corresponding to each reporting level.

It should be understood that the reporting levels may be all reporting levels corresponding to when performing an exception reporting process on the exception event by a preset level reporting manner; correspondingly, the reporting time may be the time waiting for the user to respond to the abnormal event in each reporting level.

The abnormal response module 200 is further configured to establish an information record table based on the alarm single number, the reporting levels, and the reporting time, and store the information record table in the information storage module 400.

It is understood that the information record table may be a table storing exception report information of an exception event. In practical application, after the exception reporting processing of the exception event is completed, the alarm single number, the reporting level and the reporting time corresponding to the exception event can be recorded into a table, so that the information recording table is formed.

The information storage module 400 is configured to determine, when receiving a report information query signal, a report list number to be queried according to the report information query signal, and query report detail information corresponding to the report list number to be queried through the information record table.

The report information inquiry signal may be a signal for indicating an abnormal report information of the system inquiry abnormal event.

It should be understood that the alarm number to be queried may be an alarm number corresponding to an abnormal event reporting information in an abnormality to be queried. In practical application, the report information query signal may carry a report list number to be queried corresponding to the target abnormal event for querying the abnormal report information, so the information storage module 400 may query report detail information corresponding to the target abnormal event from the information record table directly according to the report list number to be queried. The report detail information may be detail information such as a report level and a report time corresponding to an abnormal report processing for the abnormal event.

In a specific implementation, after the exception reporting process of the exception event is completed, the exception response module 200 may generate an unique record number of alarm information corresponding to the exception event, record a reporting level and a reporting time of the exception event when the exception reporting process is performed, then establish an information record table based on the unique record number of alarm information, the reporting level and the reporting time, and store the information record table in the information storage module 400. If the user needs to query the report detail information of a certain target abnormal event, a report information query request carrying a report information query request of a report alarm single number to be queried corresponding to the target abnormal event can be sent to the system, and after receiving the report information query request, the information storage module 400 can analyze the report information query request to obtain the report information query single number, and directly query report detail information of the report alarm single number to be queried corresponding to the target abnormal event from the information query record table, so as to obtain report detail information of the target abnormal event.

Further, the abnormal response module 200 is further configured to generate a query condition by a joint query manner when receiving the timeout information display request, and output the query condition to the information storage module 400, where the query condition carries a chart type identifier, an alarm type to be queried, and a query time period.

It should be noted that, the above timeout information display request may be a request indicating that the system displays timeout information when performing an abnormal response to an abnormal event.

It should be appreciated that the joint query may be a query in which multiple single query terms are joined. In practical applications, the embodiment may combine a plurality of single query conditions by a combined query manner to generate the query conditions, where the single query conditions may include: alarm type, alarm code, alarm event, etc., which is not limited in this embodiment.

It can be appreciated that the chart type identifier may be an identifier corresponding to a chart template type that the user needs to display.

It should be understood that the alarm type to be queried may be an alarm type corresponding to an abnormal event which needs to be queried by a user and is subjected to abnormal response; correspondingly, the query time period can be an alarm time period corresponding to an abnormal event which needs to be queried by a user and is subjected to abnormal response.

In a specific implementation, if the user needs to display timeout information corresponding to an abnormal event, a timeout information display request may be sent to the system, after receiving the timeout information display request, the abnormal response module 200 in the system may parse the timeout information display request to obtain an alarm type to be queried, a query time period, and a chart type identifier of a chart to be displayed, and generate a query condition in a joint query mode based on a plurality of single query requests input by the user.

The information storage module 400 is further configured to obtain, when the query condition is received, a target chart template corresponding to the chart type identifier from a preset template library according to the chart type identifier.

It should be noted that the preset template library may be a database storing a plurality of chart templates.

It should be appreciated that the target chart template described above may be a chart template that the user needs to display. In practical application, a plurality of chart templates may be stored in the preset template library, and each chart template and the type identifier corresponding to each chart template are correspondingly stored, so when the information storage module 400 receives the query condition, the target chart template corresponding to the chart type identifier can be queried from the preset template library according to the chart type identifier, thereby obtaining the target chart template.

The information storage module 400 is further configured to determine query information based on the type of the alarm to be queried and the query time period, and determine information to be displayed based on the query information and a preset time calculation mode, where the information to be displayed includes: timeout rate and average time trend.

It is understood that the query information may be information that the user needs to query, which is obtained according to the query condition. Because the information storage module 400 stores the related information of all the abnormal events, in this embodiment, the information storage module 400 may filter the information according to the query conditions such as the type of the alarm to be queried and the query time period, so as to obtain the query information.

It should be noted that the information to be displayed may be information that a user needs to display. The preset time calculation mode may be a mode of calculating a timeout rate and an average time trend. In practical applications, the information to be displayed by the user in this embodiment may include: the timeout rate may be a probability of timeout when the responsible person responds to the abnormal event, specifically, the embodiment may obtain response time of all abnormal events corresponding to the type of alarm to be queried in the query time period according to the query information, and determine the number of abnormal events responding to the timeout based on the response time, so that the timeout rate may be determined by a time calculation mode corresponding to the timeout rate based on the number of all abnormal events responding to the timeout and the number of abnormal events responding to the timeout. The average time trend may be a change trend of average response times of all abnormal events corresponding to the alarm type to be queried in the query time period, and the embodiment may represent the average time trend by using an average response time value, specifically, the embodiment may obtain response times of all abnormal events corresponding to the alarm type to be queried in the query time period, and calculate an average response value according to a time calculation formula corresponding to the average time trend based on the response times.

The information storage module 400 is further configured to graphically display the timeout rate and the average time trend based on the echorts plug-in technology and the foregoing.

It should be appreciated that the aforementioned echorts plug-in technology may be a technology for chart visualization through the echorts plug-in, where echorts is a JavaScript-based visualization chart library that possesses complex data visualization requirements.

Further, the information storage module 400 is further configured to determine, according to the target chart template, a target data format corresponding to the timeout rate and the average time trend, where the target data format is a data format required by an echorts plug-in; integrating the timeout rate and the average time trend into target information to be displayed in the target data format; and converting the information to be displayed of the target into a corresponding target chart through an echartis plug-in technology, and displaying the target chart.

It will be appreciated that the target data format may be a format in which information such as a timeout rate and an average time trend is shown in a graph, and the target data format is a data format required by the echartis plugin.

It should be noted that, the target information to be displayed may be information to be displayed after format conversion obtained after converting the timeout rate and the average time trend into the target data format.

It should be understood that the target chart may be a chart that needs to be displayed by a user, where the target chart displays information that needs to be displayed by the user, such as a timeout rate and an average response time.

In a specific implementation, after receiving the query condition output by the abnormal response module 200, the information storage module 400 may query, from a preset template library, a target graph template corresponding to the graph type identifier according to the graph type identifier carried in the query condition, then may determine a timeout rate and an average time trend based on the type of the alarm to be queried, the query time period and a preset time calculation mode, and display the timeout rate and the average time trend through the target graph template based on the echarts plugin technology.

In this embodiment, when the exception response module completes the exception reporting process, an information record table is established based on the alarm list number corresponding to the exception event, each reporting level in the exception reporting process, and the reporting time corresponding to each reporting level, and the information record table is stored in the information storage module, and when the information storage module receives the report information query signal, the information storage module queries the corresponding report detail information from the information record table through the alarm list number to be queried, thereby realizing the query of the report detail information corresponding to the exception event. Meanwhile, when receiving the overtime information display request, the abnormal response module in the embodiment can output the query condition of the query condition to the information storage module, the information storage module acquires a corresponding target chart template from the preset template library according to the chart type identifier carried by the query condition, and displays the overtime rate and the average time trend in a chart form based on the echartis plug-in technology and the target chart template, so that a user can adjust the abnormal response strategy based on the displayed overtime information to improve the abnormal response efficiency.

Based on the embodiments of An Dengguan management systems, a first embodiment of the present invention of an security management method based on the security management system is provided.

Referring to fig. 5, fig. 5 is a flowchart illustrating a first embodiment of an installation management method based on the An Dengguan management system according to the present invention.

In this embodiment, the aforementioned safety management method based on An Dengguan management system includes the following steps:

Step S10: the abnormality detection module acquires production data information generated by the target equipment in the production process in real time, and compares the production data information with preset alarm conditions.

It should be noted that, the execution body of the method of the embodiment may be An Dengguan management devices for managing abnormal situations occurring in the production process in the factory, or other safety management systems including the safety management devices, which can implement the same or similar functions. The following describes the present embodiment and the method of managing the security light provided in each of the embodiments in detail with a security light management system (hereinafter referred to as a system).

Step S20: and the abnormality detection module determines whether the target equipment is in a preset abnormal state according to the comparison result.

Step S30: when the target equipment is in a preset abnormal state, the abnormality detection module determines an alarm type corresponding to an abnormal event of the target equipment, and obtains an alarm triggering mode corresponding to the alarm type through a preset alarm mapping table.

Step S40: and the abnormal response module performs abnormal response on the abnormal event based on the alarm triggering mode and a preset response strategy.

The embodiment discloses that an abnormality detection module acquires production data information generated by target equipment in a production process in real time, and compares the production data information with preset alarm conditions; determining whether the target equipment is in a preset abnormal state according to the comparison result; when the target equipment is in a preset abnormal state, determining an alarm type corresponding to an abnormal event of the target equipment, and acquiring an alarm triggering mode corresponding to the alarm type through a preset alarm mapping table; the abnormal response module is used for carrying out abnormal response on the abnormal event based on the alarm triggering mode and a preset response strategy; compared with the prior art, the basic operation state of the three-color lamp display device cannot be used for early warning of abnormal conditions except for equipment operation abnormality, because the embodiment determines whether the target equipment is in the preset abnormal state according to the comparison result of the production data information of the target equipment and the preset alarm condition, and determines the alarm triggering mode of the alarm type corresponding to the abnormal event when the target equipment is in the preset abnormal state, the abnormal event is responded based on the alarm triggering mode and the preset response strategy, and the technical problem that the safety lamp management system cannot be used for early warning of other abnormal conditions except for equipment operation abnormality in the production process in the prior art is solved, and further the production efficiency is improved.

Referring to fig. 6, fig. 6 is a flowchart illustrating a second embodiment of the lamp management method based on the An Dengguan management system according to the present invention. Based on the first embodiment, a second embodiment of the present invention of the lighting management method based on the An Dengguan management system is presented.

Based on the first embodiment, in this embodiment, before step S40, the method includes:

Step S401: and the group management module determines the equipment abnormality level corresponding to the abnormal event based on the alarm triggering mode, and judges whether to report the abnormal event abnormally or not according to the equipment abnormality level.

Step S402: and when the group management module performs exception reporting processing on the exception event, configuring a response group and a response notification mode based on the alarm triggering mode.

Step S403: and the group management module determines a preset response strategy corresponding to the abnormal event based on the response group and the response notification mode.

Correspondingly, the step S40 includes:

step S404: and the abnormal response module determines an alarm code according to the alarm triggering mode, and performs abnormal reporting processing on the abnormal event based on the alarm code and the preset response strategy.

Further, the response notification mode includes: a mail notification mode; the step of performing abnormal response on the abnormal event based on the alarm code and the preset response strategy comprises the following steps: the abnormality detection module acquires equipment identification information and equipment position information corresponding to the target equipment; the abnormality detection module obtains alarm description information corresponding to the abnormal event through the preset mapping table, and generates equipment interface information based on the equipment identification information, the equipment position information, the alarm description information and the equipment abnormality level; the abnormal response module determines a response notification mode corresponding to the abnormal event according to the preset response strategy; and when the response notification mode is the mail notification mode, the abnormal response module sends the equipment interface information to a target response group corresponding to the abnormal event through a mail server interface and the alarm code so as to carry out abnormal reporting processing.

Further, after the step S401, the method further includes: the abnormal response module acquires the abnormal response time and the event processing state corresponding to the abnormal event in real time when the abnormal event needs to be subjected to abnormal reporting processing; the abnormal response module determines a hierarchical response user corresponding to the target response group when the abnormal response time exceeds a preset response time threshold and the event processing state is in a to-be-processed state; the abnormal response module determines the hierarchical response time corresponding to the abnormal event according to the equipment abnormal level; and the exception response module performs exception reporting processing on the exception event in a preset hierarchy response mode based on the hierarchy response user and the hierarchy response time.

Further, after the step of performing the exception reporting processing on the exception event by the exception response mode through the preset hierarchy response mode based on the hierarchy response user and the hierarchy response time, the exception response module further includes: the abnormal response module generates an alarm single number corresponding to the abnormal event when the abnormal reporting processing is completed; the abnormal response module obtains each reporting level in the abnormal reporting process and the reporting time corresponding to each reporting level; the abnormal response module establishes an information record table based on the alarm single number, each reporting level and the reporting time, and stores the information record table into the information storage module; and when the information storage module receives the report information inquiry signal, determining an alarm single number to be inquired according to the report information inquiry signal, and inquiring report detail information corresponding to the alarm single number to be inquired through the information record table.

Further, after the step S404, the method further includes: when receiving a timeout information display request, the abnormal response module generates a query condition in a joint query mode and outputs the query condition to the information storage module, wherein the query condition carries a chart type identifier, an alarm type to be queried and a query time period; when the information storage module receives the query condition, acquiring a target chart template corresponding to the chart type identifier from a preset template library according to the chart type identifier; the information storage module determines query information based on the type of the alarm to be queried and the query time period, and determines information to be displayed based on the query information and a preset time calculation mode, wherein the information to be displayed comprises: timeout rate and average time trend; the information storage module graphically displays the timeout rate and the average time trend based on the echorts plug-in technology and the target graph template.

It should be understood that, in this embodiment, the information storage module determines, according to the target chart template, a target data format corresponding to the timeout rate and the average time trend, where the target data format is a data format required by an echartis plug-in; the information storage module integrates the timeout rate and the average time trend into target information to be displayed in the target data format; the information storage module converts the information to be displayed of the target into a corresponding target chart through an echartis plug-in technology, and displays the target chart.

In the embodiment, the group management module determines the preset response strategy corresponding to the abnormal event based on the response group configured in the alarm triggering mode and the response notification mode, so that the abnormal response module performs abnormal reporting processing on the abnormal event based on the alarm code determined in the alarm triggering mode and the preset response strategy, thereby improving the reporting efficiency of the abnormal event, further rapidly responding to and processing the abnormal problem in the production process, and improving the production efficiency. Meanwhile, when the abnormal response time of the abnormal event exceeds the preset response time threshold value and the event processing state of the abnormal event is in a to-be-processed state, the abnormal response module can report and process the abnormal event in an abnormal manner through a preset level response mode, so that the response efficiency of the abnormal problem in the production process is further improved.

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 system 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 system. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or system that comprises the element.

The foregoing embodiment numbers of the present invention are merely for the purpose of description, and do not represent the advantages or disadvantages of the embodiments.

From the above description of the embodiments, it will be clear to those skilled in the art that the above-described embodiment method may be implemented by means of software plus a necessary general hardware platform, but of course may also be implemented by means of hardware, but in many cases the former is a preferred embodiment. Based on such understanding, the technical solution of the present invention may be embodied essentially or in a part contributing to the prior art in the form of a software product stored in a storage medium (e.g. read-only memory/random-access memory, magnetic disk, optical disk), comprising instructions for causing a terminal device (which may be a mobile phone, a computer, a server, or a network device, etc.) to perform the method according to the embodiments of the present invention.

The foregoing description is only of the preferred embodiments of the present invention, and is not intended to limit the scope of the invention, but rather is intended to cover any equivalents of the structures or equivalent processes disclosed herein or in the alternative, which may be employed directly or indirectly in other related arts.

Claims

1. An ampere management system, the An Dengguan management system comprising: an anomaly detection module and an anomaly response module;

The abnormal response module is used for carrying out abnormal response on the abnormal event based on the alarm triggering mode and a preset response strategy;

The An Dengguan management system further includes: a group management module;

The abnormal response module is further used for determining an alarm code according to the alarm triggering mode and carrying out abnormal reporting processing on the abnormal event based on the alarm code and the preset response strategy;

the response notification mode comprises the following steps: a mail notification mode; the abnormality detection module is further used for acquiring equipment identification information and equipment position information corresponding to the target equipment;

2. The security management system according to claim 1, wherein the exception response module is further configured to obtain an exception response time and an event processing state corresponding to the exception event in real time;

3. The security management system of claim 2, wherein the An Dengguan management system further comprises: an information storage module;

4. The security management system according to claim 3, wherein the abnormal response module is further configured to generate a query condition by a joint query manner when receiving the timeout information display request, and output the query condition to the information storage module, where the query condition carries a chart type identifier, an alarm type to be queried, and a query time period;

5. The security management system according to claim 4, wherein the information storage module is further configured to determine a target data format corresponding to the timeout rate and the average time trend according to the target graph template, the target data format being a data format required by an echorts plug-in;

6. An security management method based on the security management system of any one of claims 1 to 5, wherein the An Dengguan management method comprises:

the abnormal response module performs abnormal response on the abnormal event based on the alarm triggering mode and a preset response strategy;

Before the step of performing the abnormal response to the abnormal event based on the alarm triggering mode and the preset response strategy, the abnormal response module further comprises:

The abnormal response module determines an alarm code according to the alarm triggering mode;