CN115982787A - Industrial equipment exception handling method, system, device and storage medium - Google Patents

Abstract

The embodiment of the application relates to the technical field of industrial internet equipment management, and discloses a method, a system, a device and a medium for processing industrial equipment exception, wherein the method comprises the following steps: establishing industrial equipment identification information and accessory identification information in an identification analysis system in advance, and associating the accessory identification information with the industrial equipment identification information; the identification analysis system also comprises accessory specification information; acquiring state data of the accessory; if the state data is abnormal, sending a first analysis request comprising the identification information of the industrial equipment to an identification analysis system; receiving first tracing information sent by an identification analysis system, and determining the accessory identification information of an abnormal accessory according to the state data and the first tracing information; sending a second analysis request to the identification analysis system, wherein the second analysis request comprises the accessory identification information of the abnormal accessory; receiving abnormal accessory specification information sent by an identification analysis system; and performing exception handling according to the accessory specification information.

Description

Industrial equipment exception handling method, system, device and storage medium

Technical Field

The embodiment of the application relates to the technical field of industrial internet equipment management, in particular to an industrial equipment exception handling method, system, device and storage medium.

Background

At present, in the technical field of industrial internet equipment (industrial equipment for short) management, health management of industrial equipment is more and more important. The PHM predictive maintenance system (PHM system for short) can monitor the operation process of the industrial equipment in real time, and can monitor the operation state of the industrial equipment in real time mainly by acquiring the operation data of the industrial equipment. Meanwhile, the PHM system can analyze and calculate the collected data, so that whether the industrial equipment has abnormal state or fault trend is judged, the running state of the industrial equipment is predicted, a maintenance plan can be made, abnormal accessories are prepared in advance, the abnormal maintenance loss of the equipment is reduced, the cost is saved, and the maintenance effect is guaranteed.

The inventor of the application finds that heterogeneous data exists in industrial equipment accessed by the current PHM predictive maintenance system, so that the industrial equipment is difficult to trace when the industrial equipment breaks down, and the abnormity of the industrial equipment cannot be efficiently and conveniently processed in time.

Disclosure of Invention

In view of the above problems, embodiments of the present application provide an industrial device exception handling method, which is used to solve the problem in the prior art that an industrial device exception is not efficiently handled.

According to one aspect of the embodiment of the application, an industrial equipment exception handling method is provided, which comprises the steps of establishing industrial equipment identification information and accessory identification information in an identification analysis system in advance, and associating the accessory identification information with the industrial equipment identification information to which the accessory identification information belongs; the identification analysis system also comprises accessory specification information corresponding to the accessory identification information, and the method comprises the following steps: acquiring state data of the accessory; if the state data of the accessory is abnormal, sending a first analysis request to the identification analysis system, wherein the first analysis request comprises industrial equipment identification information associated with the accessory, so that the identification analysis system obtains first tracing information according to the industrial equipment identification information, and the first tracing information comprises accessory identification information of all accessories associated with the industrial equipment identification information; receiving the first tracing information, and determining the accessory identification information of the accessory with abnormal state data according to the state data and the first tracing information; sending a second analysis request to the identification analysis system, wherein the second analysis request comprises the accessory identification information of the accessory with abnormal state data, so that the identification analysis system obtains the corresponding accessory specification information according to the accessory identification information of the accessory with abnormal state data; receiving accessory specification information of the accessory with abnormal state data, which is sent by the identification analysis system; and performing exception handling according to the accessory specification information.

In an optional manner, if the status data of the accessory is abnormal, sending a first parsing request to the identifier parsing system, further includes: if the state data of the accessory is abnormal, acquiring the abnormal duration of the accessory; and if the abnormal duration of the accessory is longer than a first preset duration, sending a first analysis request to the identifier analysis system.

In an optional manner, if the abnormal duration of the accessory is greater than a first preset duration, sending a first parsing request to the identifier parsing system, further includes: if the abnormal duration of the accessory is longer than a first preset duration, generating alarm information; acquiring alarm time according to the alarm information; and if the alarm time interval of the adjacent alarm information is greater than a second preset time length, sending a first analysis request to the identifier analysis system.

In an optional manner, the accessory identification information includes CPU identification information, memory bank identification information, motherboard identification information, hard disk identification information, and/or power supply identification information.

In an optional manner, the specification information of the accessory of the industrial equipment includes material description information, model information, accessory barcode information, material number information, and/or complete machine barcode information.

According to another aspect of the embodiments of the present application, there is provided an industrial equipment exception handling system, including a PHM subsystem and an identifier resolution subsystem; the identification analysis subsystem comprises industrial equipment identification information and accessory identification information, wherein the accessory identification information is associated with the industrial equipment identification information to which the accessory identification information belongs, and also comprises accessory specification information corresponding to the accessory identification information; the PHM subsystem is used for acquiring state data of an accessory, and if the state data of the accessory is abnormal, a first analysis request is sent to the identification analysis subsystem, wherein the first analysis request comprises industrial equipment identification information associated with the accessory; the identification analysis subsystem is used for receiving the first analysis request, acquiring first tracing information according to the identification information of the industrial equipment, and sending the first tracing information to the PHM subsystem, wherein the first tracing information comprises the accessory identification information of all accessories associated with the identification information of the industrial equipment; the PHM subsystem is used for receiving the first tracing information, determining accessory identification information of an accessory with abnormal state data according to the accessory name and the first tracing information, and sending a second analysis request to the identification analysis subsystem, wherein the second analysis request comprises the accessory identification information of the accessory with abnormal state data; the identification analysis subsystem is used for receiving the second analysis request, acquiring corresponding accessory specification information according to the accessory identification information of the accessory with abnormal state data, and sending the accessory specification information corresponding to the accessory identification information of the accessory with abnormal state data to the PHM subsystem; the PHM subsystem is also used for receiving the accessory specification information of the accessory with abnormal state data, which is sent by the identification analysis subsystem, and performing exception processing according to the specification information.

In an optional mode, the PHM subsystem is further configured to obtain an abnormal duration of the accessory when the status data of the accessory is abnormal; if the abnormal duration of the accessory is longer than a first preset duration, generating alarm information; acquiring alarm time according to the alarm information; and when the alarm time interval of the adjacent alarm information is greater than a second preset time, sending a first analysis request to the identifier analysis subsystem.

According to another aspect of the embodiments of the present application, there is provided an industrial equipment exception handling apparatus, including: the system comprises a preprocessing module, an identification analysis module and a display module, wherein the preprocessing module is used for establishing industrial equipment identification information and accessory identification information in an identification analysis system in advance and associating the accessory identification information with the industrial equipment identification information to which the accessory identification information belongs; the identification analysis system also comprises accessory specification information corresponding to the accessory identification information; the first acquisition module is used for acquiring the state data of the accessory; the first sending module is used for sending a first analysis request to the identification analysis system if the state data of the accessory is abnormal, wherein the first analysis request comprises industrial equipment identification information associated with the accessory, so that the identification analysis system obtains first tracing information according to the industrial equipment identification information, and the first tracing information comprises accessory identification information of all accessories associated with the industrial equipment identification information; the second obtaining module is used for receiving the first tracing information and determining the accessory identification information of the accessory with abnormal state data according to the accessory name and the first tracing information; the second sending module is used for sending a second analysis request to the identification analysis system, wherein the second analysis request comprises the accessory identification information of the accessory with abnormal state data, so that the identification analysis system can obtain the corresponding accessory specification information according to the accessory identification information of the accessory with abnormal state data; the third acquisition module is used for receiving the accessory specification information of the accessory with abnormal state data, which is sent by the identification analysis system; and the exception handling module is used for carrying out exception handling according to the accessory specification information.

According to another aspect of the embodiments of the present application, there is provided an industrial equipment exception handling apparatus including: the system comprises a processor, a memory, a communication interface and a communication bus, wherein the processor, the memory and the communication interface are communicated with each other through the communication bus; the memory is used for storing at least one executable instruction, and the executable instruction enables the processor to execute the operation of the industrial equipment exception handling method.

According to another aspect of the embodiments of the present application, there is provided a computer-readable storage medium, in which executable instructions are stored, and the executable instructions cause an industrial equipment exception handling device to perform operations corresponding to the method.

In the embodiment of the application, the identification information of the industrial equipment and the identification information of the accessories of the industrial equipment are registered in advance and obtained, the identification information of the accessories is associated with the identification information of the industrial equipment, and the specification information of the accessories is associated with the corresponding identification information of the accessories. When the situation that a certain accessory of the industrial equipment is abnormal is monitored, the identification analysis service provided by the identification analysis system is utilized, and the analysis request comprising the accessory identification information of the abnormal accessory is sent to the identification analysis system, so that the accessory specification information which is sent by the identification analysis system and is related to the accessory identification information of the abnormal accessory can be quickly obtained, the abnormal processing can be quickly carried out according to the accessory specification information, the abnormal processing efficiency of the industrial equipment is improved, and the loss caused by the abnormal industrial equipment is further reduced.

The foregoing description is only an overview of the technical solutions of the embodiments of the present application, and the embodiments of the present application can be implemented according to the content of the description in order to make the technical means of the embodiments of the present application more clearly understood, and the detailed description of the present application is provided below in order to make the foregoing and other objects, features, and advantages of the embodiments of the present application more clearly understandable.

Drawings

The drawings are only for purposes of illustrating embodiments and are not to be construed as limiting the application. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

FIG. 1 is a flow chart of an industrial equipment exception handling method according to an embodiment of the present disclosure;

FIG. 2 is a flow chart illustrating sub-steps of step 130 in FIG. 1 according to an embodiment of the present application;

FIG. 3 is a flow chart illustrating the substeps of step 132 of FIG. 2 according to an embodiment of the present application;

FIG. 4 is a schematic diagram illustrating a structure of an exception handling system for industrial equipment according to an embodiment of the present application;

FIG. 5 illustrates a block diagram of another industrial equipment exception handling system provided in the practice of the present application;

FIG. 6 is a schematic structural diagram of an abnormality processing apparatus for industrial equipment according to an embodiment of the present disclosure;

fig. 7 shows a schematic structural diagram of an industrial equipment exception handling device according to an embodiment of the present application.

Detailed Description

Exemplary embodiments of the present application will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present application are shown in the drawings, it should be understood that the present application may be embodied in various forms and should not be limited to the embodiments set forth herein.

At present, with the increasing progress of modern industrialization, industrial equipment is widely used in various fields, and the number and kinds of accessories of the industrial equipment are large, however, the performance of the accessories of the industrial equipment gradually becomes bad phenomena such as aging or failure along with the prolonging of the service time. Therefore, when a certain accessory of the industrial equipment is abnormal, if the abnormal accessory can be timely and quickly processed, the loss caused by the abnormal accessory of the industrial equipment can be reduced.

The inventor of the application finds that in the prior art, although the industrial equipment can send out alarm sound for prompting a user when abnormal occurs, the types and the number of accessories included in the industrial equipment are large, and relevant information such as models and manufacturers of different accessories are different, so that even if the user receives the alarm sound sent by the industrial equipment, the user still needs to spend a large amount of time for further inquiring the relevant information of the accessories by means such as inquiring a manual and the like to perform abnormal processing, the time for the abnormal processing is greatly increased, the efficiency for the abnormal processing is reduced, the normal use of the industrial equipment by the user is seriously influenced, and great trouble is brought to the user.

The inventor of the application notices that in the field of industrial internet, an industrial internet identification analysis system (identification analysis system for short) provides basic service for global manufacturing development and industrial internet popularization, aims to break information isolated island, promote industrial internet data communication, realize seamless transmission of data and information among all elements and all systems, realize identification data management and sharing of 'cross-enterprise-cross-industry-cross-region-cross-country', and is an important network infrastructure of the industrial internet.

The identification analysis system gives each entity or virtual object a unique identification in the modes of bar codes, two-dimensional codes, radio frequency identification tags and the like, and can provide identification registration service, identification analysis and other services. Illustratively, a unique identifier is registered and obtained for a certain entity or virtual object in the identifier parsing system in advance, and then the identifier is associated with the tracing information, so that when the identifier is queried in the identifier parsing system, the identifier parsing system parses the identifier to be queried, and then the tracing information associated with the identifier can be obtained.

Based on the above consideration, in order to solve the problem that after an abnormality occurs in an industrial equipment fitting, the problem that the abnormality cannot be quickly processed is solved, through intensive research, the inventor of the present application proposes an industrial equipment abnormality processing method, which makes full use of an identifier registration service and an identifier resolution service provided by an identifier resolution system, that is, identifier information is registered in advance for the industrial equipment and the industrial equipment fitting in the identifier resolution system, and the identifier information of the industrial equipment is associated with the identifier information of the fitting, and the fitting specification information is associated with the corresponding fitting identifier information.

In order to improve the efficiency of the abnormal processing of the industrial equipment, in the embodiment of the application, identification information is registered in an identification analysis system for the industrial equipment and all accessories of the industrial equipment in advance, so that identification information of the industrial equipment and identification information of the accessories are obtained, the identification information of the industrial equipment is associated with the identification information of the accessories, the identification information of the accessories comprises accessory names, and the identification information of the accessories associated with the identification information of the industrial equipment can be obtained by tracing through the identification information of the industrial equipment. And then associating the accessory specification information with the corresponding accessory identification information, and obtaining the accessory specification information associated with the accessory identification information through the accessory identification information. As an example of the embodiment of the present application, table 1 is a table associating industrial device identification information and corresponding accessory identification information, and it is assumed that the identifiers registered and obtained for the industrial devices are: "88.258.1/PPLE6GGVG07019771", the identifier registered and obtained for the CPU of the industrial device is "88.258.1/pplcppu _ M73W8T8302051", and the identifier registered and obtained for the material number of the industrial device is: "88.258.1/PPLIN _0010-138641", the identifier registered and obtained for the first memory bank of the industrial device is "88.258.1/PPLMC _ SMHSG08G22G041180", and the identifier registered and obtained for the second memory bank of the industrial device is: "88.258.1/PPLMC _ SMHSG08G22G041171", the identification registered and obtained for the motherboard of the industrial device is: "88.258.1/PPLMB _ E8GPV24B0000016", the identifier registered and obtained for the hard disk of the industrial device is: "88.258.1/PPLHD _ H230990054", the identification registered and obtained for the power supply of the industrial device is: "88.258.1/PPLPM _9NA0907817 H1351001728" and associates the accessory identification information of all accessories of the industrial device with the industrial device identification information.

From the association table of the industrial device identification information and the corresponding accessory identification information in table 1, all accessory identification information associated with the industrial device identification can be obtained by querying the industrial device identification. After an analysis request including an industrial equipment identifier is sent to the identifier analysis system, the trace-back information obtained after the identifier analysis system analyzes and queries the identifier analysis system includes associated trace-back information such as a "CPU identifier", a "material number identifier", a "first memory bank identifier", a "second memory bank identifier", a "main board identifier", a "hard disk identifier", and a "power supply identifier". As shown in table 1, the accessory identification information obtained by querying the above-described industrial device identification is exemplified.

TABLE 1

Fig. 1 shows a flowchart of an industrial equipment exception handling method provided in an embodiment of the present application. As shown in fig. 1, the method comprises the steps of:

step 110: status data of the accessory is obtained.

The acquired state data includes operation data of the accessory and information capable of representing the name of the accessory, for example, if all the accessories of the equipment are numbered in advance, the acquired state data of the accessory includes the serial number of the accessory and the operation data thereof; or the acquired status data of the accessory includes the name of the accessory and its operating data. Wherein the operating data of the accessory refers to the operating temperature, voltage, time, etc. of the accessory.

Specifically, according to the type of the accessory, corresponding state data is acquired, for example, if the accessory is a CPU, state data such as operating temperature and voltage of the CPU are acquired; if the accessory is a fan, state data such as the rotating speed of the fan and the running time is acquired, the state data can be acquired as required, as long as the health state of the accessory can be judged through the state data, and in the step, limitation is not performed.

When the industrial equipment is in a working state, the state data of the accessories can be acquired in real time through a sensor and the like. Here, an industrial device provided with a rotation speed sensor and a time timer is taken as an example, and an accessory is a fan, after the industrial device enters a working state, the rotation speed of the fan is obtained in real time through the rotation speed sensor, and the time timer obtains the operation duration of the fan.

Step 120: and judging whether the state data is abnormal or not.

The normal threshold value of each state data of each accessory can be preset as required, and after the state data of the accessory is acquired each time, whether the acquired state data is abnormal or not is judged according to the normal threshold value. For example, the normal threshold of the operating temperature of the CPU of the industrial equipment is set to 40 ℃, and if the operating temperature of the CPU at the present time is 42 ℃, that is, exceeds the normal threshold, it is determined that the status data is abnormal.

If the status data is normal, go to step 110.

If the status data is abnormal, go to step 130.

Step 130: and sending a first analysis request to an identification analysis system, wherein the first analysis request comprises industrial equipment identification information associated with the accessories, so that the identification analysis system can obtain first tracing information according to the industrial equipment identification information, and the first tracing information comprises the accessory identification information of all the accessories associated with the industrial equipment identification information.

The industrial equipment and all accessories of the industrial equipment are respectively registered and obtained in the identification analysis system in advance, and the industrial equipment identification information and the accessory identification information are associated. Therefore, when the condition data of a certain accessory of the industrial equipment is monitored to be abnormal, a first analysis request is sent to the identification analysis system, the first analysis request comprises the identification information of the industrial equipment associated with the abnormal accessory, and the identification analysis system analyzes the identification information of the industrial equipment to obtain the identification information of all accessories of the industrial equipment associated with the identification information of the industrial equipment.

Taking the above table 1 as an example for explanation, after sending a first parsing request including an industrial device identifier "88.258.1/PPLE6GGVG07019771" to an identifier parsing system, the identifier parsing system can obtain "CPU identifier", "material number identifier", "first memory bank identifier", "second memory bank identifier", "motherboard identifier", "hard disk identifier", and "power supply identifier" trace information associated with the industrial device identifier by parsing and querying the industrial device identifier, and send the trace information associated with the industrial device identifier to a request end sending the first parsing request, so that the request end sending the first parsing request obtains "CPU identifier", "material number identifier", "first memory bank identifier", "second memory bank identifier", "motherboard identifier", "hard disk identifier", and "power supply identifier" associated with the industrial device identifier.

In this step, the accessory identification information of all accessories associated with the industrial equipment identification information can be obtained through the industrial equipment identification information, so that although the number and the types of the accessories of the industrial equipment are large, the accessory identification information of all accessories can be obtained through the industrial equipment identification information only by storing the industrial equipment identification information, the accessory identification information of all accessories does not need to be stored, and the storage information redundancy is avoided.

Step 140: and receiving the first tracing information, and determining the accessory identification information of the accessory with abnormal state data according to the state data and the first tracing information.

After receiving an analysis request including identification information, the identification analysis system analyzes the identification information to obtain tracing information associated with the identification information, and returns the tracing information to a request end sending the analysis request. Therefore, after receiving a first analysis request including the industrial equipment identification information, the identification analysis system analyzes the industrial equipment identification information and obtains first tracing information, and sends the first tracing information to a request end sending the first analysis request. The first tracing information comprises accessory identification information of all accessories related to the identification information of the industrial equipment, and the accessory identification information comprises corresponding accessory names, so that after the accessory names of the accessories with abnormal state data are obtained according to the state data, the accessory identification information of the accessories with the abnormal state data can be obtained through the first tracing information.

Step 150: and sending a second analysis request to the identification analysis system, wherein the second analysis request comprises the accessory identification information of the accessory with abnormal state data, so that the identification analysis system can obtain the corresponding accessory specification information according to the accessory identification information of the accessory with abnormal state data.

After acquiring the accessory identification information of the accessory with abnormal state data, sending a second analysis request to an identification analysis system, wherein the second analysis request comprises the accessory identification information of the accessory with abnormal state data, the identification analysis system analyzes the accessory identification information of the accessory with abnormal state data to acquire the accessory specification information associated with the accessory identification information of the accessory with abnormal state data, and sends the accessory specification information of the accessory with abnormal state data to a request end sending the second analysis request.

Step 160: and receiving accessory specification information of the accessory with abnormal state data sent by the identification analysis system.

After receiving a second analysis request comprising the accessory identification information of the accessory with abnormal state data, the identification analysis system analyzes the accessory identification information of the accessory with abnormal state data, so as to obtain accessory specification information associated with the accessory identification information of the accessory with abnormal state data, and returns the accessory specification information to a request end for sending the second analysis request.

Step 170: and performing exception handling according to the accessory specification information.

The specification information of the accessories comprises information such as the types and manufacturers of the accessories, so that after the accessory specification information of the accessories with abnormal state data is obtained, the accessories of the same type can be quickly maintained or replaced, and the efficiency of abnormal treatment of the industrial equipment is improved.

In the embodiment of the application, by using the identifier registration and identifier resolution service provided by the identifier resolution system, the identifier information of the industrial equipment and the identifier information of the accessories are respectively registered in the identifier resolution system in advance to obtain the identifier information of the industrial equipment and the identifier information of the accessories, and all the identifier information of the accessories is associated with the identifier information of the industrial equipment, wherein the identifier information of the accessories comprises the names of the accessories, and meanwhile, the specification information of the accessories is associated with the corresponding identifier information of the accessories. When a certain accessory of the industrial equipment is abnormal, a first analysis request comprising the identification information of the industrial equipment is sent to an identification analysis system, and after the identification analysis system receives the first analysis request, the identification information of the industrial equipment is analyzed, so that the accessory identification information of all accessories related to the identification information of the industrial equipment can be obtained, and the obtained accessory identification information is returned to a request end sending the first analysis request. After acquiring the accessory identification information of all the accessories sent by the identification analysis system, acquiring the accessory identification information of the accessories with abnormal state data according to the state data and the accessory identification information of all the accessories, and sending a second analysis request to the identification analysis system, wherein the second analysis request comprises the accessory identification information of the accessories with abnormal state data, after receiving the second analysis request, the identification analysis system analyzes the accessory identification information of the accessories with abnormal state data to obtain the accessory specification information related to the accessory identification information of the accessories with abnormal state data, and then sends the accessory specification information to a request end sending the second analysis request. After the accessory specification information sent by the identification analysis system is obtained, exception handling can be rapidly carried out according to the accessory specification information.

The quantity and the kind of industrial equipment's accessory are more, and consequently the accessory identification information of industrial equipment's accessory is more, in this application embodiment, only through industrial equipment identification information, can trace back the accessory specification information of this industrial equipment's all accessories, when having solved a certain accessory of industrial equipment and taking place unusually, can't trace back the problem of accessory specification information to the efficiency of obtaining accessory specification information has been improved, and then has improved the unusual efficiency of solving industrial equipment. Meanwhile, the accessory specification information is stored in the identification analysis system by utilizing the accessory identification information, and the static accessory specification information is isolated from the state data of the accessory, so that the safety and the stability of the accessory specification information are improved to a certain extent.

In some embodiments, in order to improve the accuracy of processing the abnormal condition of the accessory of the industrial equipment, fig. 2 shows a flowchart of sub-steps of step 130 in fig. 1, as shown in fig. 2, in the step 130, if the status data of the accessory is abnormal, the sending a first resolution request to the identification resolution system further includes:

step 131: and if the state data of the accessory is abnormal, acquiring the abnormal duration of the accessory.

Because the operating environment of industrial equipment in a workshop is complex, the jitter problem may occur in the industrial network environment, and therefore when the sensor acquires the accessory state data, the problems of state data false alarm and the like may occur. However, when an abnormal component is actually abnormal, the status data of the abnormal component continues to be abnormal, so that when the abnormal status data of the component at a certain time is detected, the abnormal duration of the component is obtained, and whether the abnormal component is actually abnormal or not can be further accurately judged. Specifically, the anomaly duration of the accessory can be obtained using a timer.

Step 132: and if the abnormal duration of the accessory is longer than a first preset duration, sending a first analysis request to the identifier analysis system.

After an abnormal accessory is abnormal, the state data of the abnormal accessory continues to be abnormal all the time, so that whether the accessory is in the abnormal state or not can be accurately judged by further judging the abnormal duration time of the accessory, and if the abnormal duration time of the accessory is longer than a first preset time, the accessory can be accurately judged to be in the abnormal state.

In the embodiment of the application, if the industrial network environment is abnormal, the acquired accessory state data is easy to suddenly change to be abnormal, so that whether the accessory is abnormal or not is directly judged only according to whether the accessory state data at a certain moment is abnormal or not, and misjudgment is easy to cause. However, if the accessory is actually abnormal, the state data of the abnormal accessory continues to be abnormal all the time, so that when the acquired state data of a certain accessory at a certain moment is abnormal, the abnormal duration of the accessory is further acquired, and when the abnormal duration of the accessory is longer than a first preset time, the accessory can be accurately judged to be in the abnormal state, so that the accuracy of the abnormal processing of the accessory of the industrial equipment is improved, and the misjudgment is reduced.

In some embodiments, in order to improve the efficiency of processing the abnormality of the industrial equipment accessory, fig. 3 shows a flowchart of sub-steps of step 132 in fig. 2, and as shown in fig. 3, in step 132, if the abnormality duration of the accessory is greater than a first preset time period, the sending a first resolution request to the identifier resolution system further includes:

step 133: and if the abnormal duration of the accessory is longer than a first preset duration, generating alarm information.

If the abnormal duration of the accessory is longer than the first preset duration, the accessory can be accurately judged to be in an abnormal state, and alarm information is correspondingly generated for prompting. Specifically, the alarm information may be generated by an alarm module.

Step 134: and acquiring alarm time according to the alarm information.

Specifically, the alarm time may be acquired by a sensor. After the alarm time is obtained, the method can be further used for judging the alarm time interval of adjacent alarm information, and further judging whether the first analysis request needs to be sent or not according to the time interval, so that the first analysis request is prevented from being repeatedly sent, and the efficiency is improved.

Step 135: and if the alarm time interval of the adjacent alarm information is greater than a second preset time length, sending a first analysis request to an identifier analysis system.

Because the sent first analysis request comprises the identification information of the industrial equipment and the obtained identification information of the accessories of the industrial equipment, if the alarm time interval of the alarm information of two adjacent times is short, the first analysis request does not need to be sent repeatedly and the same tracing information does not need to be obtained repeatedly. And only when the alarm time interval of the adjacent alarm information is greater than the second preset time length, a second analysis request is sent to the identification analysis system, so that the same information is prevented from being repeatedly acquired, and the efficiency is improved. The second preset time period may be set as required, and is not limited in this step.

In the embodiment of the application, after a certain accessory of the accurate judgment industrial equipment is actually in an abnormal state, the alarm information is generated to prompt the accessory to be abnormal, the alarm time of the alarm information is further acquired, only when the alarm time interval of the adjacent alarm information is greater than the second preset time length, the first analysis request is sent to the identification analysis system, the first analysis request is repeatedly sent in a short time, the same accessory identification information is repeatedly obtained, information redundancy is caused, and the efficiency is improved.

In order to obtain the accessory identification information quickly, in some embodiments, the accessory identification information includes CPU identification information, memory bank identification information, motherboard identification information, hard disk identification information, and/or power supply identification information.

Because the types and the quantity of the accessories of the industrial equipment are large, in the embodiment of the application, the identification information is only registered for the key accessories of the industrial equipment, so that when the key accessories are abnormal and the first analysis request is sent to the identification analysis system, the accessory identification information of the key accessories can be quickly acquired, and the abnormal processing efficiency of the industrial equipment is further improved.

In order to further improve the efficiency of processing the abnormality of the industrial equipment, in some embodiments, the specification information of the accessories of the industrial equipment includes material description information, model information, accessory barcode information, material number information, and/or complete machine barcode information.

Because the specification information types of the accessories are more, and the information quantity is larger, in the embodiment of the application, only the key specification information of the accessories is associated with the accessory identification information, the types of the accessories can be quickly determined through the key specification information of the accessories, and then the exception handling can be quickly carried out, so that the information redundancy is avoided, and the resource waste is caused.

According to another aspect of an embodiment of the present application, an industrial equipment exception handling system is provided. Fig. 4 shows a schematic structural diagram of an industrial equipment exception handling system according to an embodiment of the present application. As shown in fig. 4, the industrial equipment exception handling system includes a PHM subsystem and an identifier resolution subsystem;

the identification analysis subsystem comprises industrial equipment identification information and accessory identification information, and the accessory identification information is associated with the industrial equipment identification information to which the accessory identification information belongs; the accessory specification information corresponding to the accessory identification information is also included;

the PHM subsystem is used for acquiring the state data of the accessory, and if the state data of the accessory is abnormal, a first analysis request is sent to the identification analysis subsystem, wherein the first analysis request comprises the identification information of the industrial equipment associated with the accessory;

the identification analysis subsystem is used for receiving the first analysis request, acquiring first tracing information according to the identification information of the industrial equipment, and sending the first tracing information to the PHM subsystem, wherein the first tracing information comprises the accessory identification information of all accessories related to the identification information of the industrial equipment;

the PHM subsystem is used for receiving the first tracing information and determining accessory identification information of an accessory with abnormal state data according to the accessory name and the first tracing information; sending a second analysis request to the identification analysis subsystem, wherein the second analysis request comprises the accessory identification information of the accessory with abnormal state data;

the identification analysis subsystem is used for receiving the second analysis request, acquiring corresponding accessory specification information according to the accessory identification information of the accessory with abnormal state data, and sending the accessory specification information corresponding to the accessory identification information of the accessory with abnormal state data to the PHM subsystem;

the PHM subsystem is also used for receiving accessory specification information of the accessory with abnormal state data sent by the identification analysis subsystem; and performing exception handling according to the specification information.

In the embodiment of the application, the PHM subsystem can monitor the operation process of the industrial equipment according to the collected data, early warning is carried out on equipment faults in advance, the operation state of the equipment is predicted, real-time monitoring is carried out on the operation state of the equipment, the abnormal state or fault trend of the industrial equipment can be analyzed and calculated, then spare parts can be prepared in advance, maintenance is carried out according to a plan, the abnormal maintenance loss of the equipment is reduced, the cost is saved, the maintenance efficiency is improved, and the maintenance effect is guaranteed.

The identification analysis subsystem comprises industrial equipment identification information and accessory identification information, and the accessory identification information is associated with the industrial equipment identification information to which the accessory identification information belongs; the PHM subsystem further comprises accessory specification information corresponding to the accessory identification information, so that when the PHM subsystem acquires abnormal state data of the accessory, a first analysis request is sent to the identification analysis subsystem, and the first analysis request comprises industrial equipment identification information associated with the accessory, so that the accessory identification information of all accessories associated with the industrial equipment identification information can be acquired. After acquiring the accessory identification information of all the accessories, the PHM subsystem determines the accessory identification information of the accessory with abnormal state data according to the accessory name and the first tracing information, and sends a second analysis request to the identification analysis subsystem, wherein the second analysis request comprises the accessory identification information of the accessory with abnormal state data, so that the accessory specification information corresponding to the accessory identification information of the accessory with abnormal state data is acquired, and then the abnormality processing can be performed according to the accessory specification information.

The quantity and the kind of industrial equipment's accessory are more, and consequently the accessory identification information of industrial equipment's accessory is more, in this application embodiment, only through industrial equipment identification information, can trace back the accessory specification information of this industrial equipment's all accessories, when having solved a certain accessory of industrial equipment and taking place unusually, can't trace back the problem of accessory specification information to the efficiency of obtaining accessory specification information has been improved, and then has improved the unusual efficiency of solving industrial equipment. Meanwhile, the accessory specification information is stored in the identification analysis subsystem by utilizing the accessory identification information, and the static accessory specification information and the state data of the accessory are isolated, so that the safety and the stability of the accessory specification information are improved to a certain extent.

In order to improve the efficiency of processing the abnormality of the industrial equipment, in some embodiments, the PHM subsystem is further configured to obtain an abnormality duration of the accessory when the status data of the accessory is abnormal; when the abnormal duration of the accessories is longer than a first preset duration, alarm information is generated; acquiring alarm time according to the alarm information; and when the alarm time interval of the adjacent alarm information is longer than a second preset time, sending a first analysis request to the identifier analysis subsystem.

In the embodiment of the application, if the industrial network environment is abnormal, the accessory state data acquired by the PHM subsystem is abnormal suddenly, so that whether the accessory is abnormal is directly judged only according to whether the accessory state data at a certain moment is abnormal, and misjudgment is easily caused. However, if the accessory is actually abnormal, the status data of the abnormal accessory continues to be abnormal all the time, so that when the status data of a certain accessory at a certain moment is abnormal, which is acquired by the PHM subsystem, the abnormal duration of the accessory is further acquired, and when the abnormal duration of the accessory is longer than a first preset time, the accessory can be accurately judged to be actually in an abnormal state, so that the accuracy of the abnormal processing of the accessory of the industrial equipment is improved.

When the PHM subsystem accurately judges that a certain accessory of the industrial equipment is actually in an abnormal state, alarm information is generated to prompt the accessory to be abnormal, the alarm time of the alarm information is further obtained, and only when the alarm time interval of adjacent alarm information is larger than a second preset time length, a first analysis request is sent to the identifier analysis subsystem, so that the situation that the first analysis request is repeatedly sent in a short time, the same accessory identifier information is repeatedly obtained, information redundancy is caused is avoided, and the efficiency is improved.

Fig. 5 is a schematic diagram illustrating a structure of another industrial equipment exception handling system provided in the present application. As shown in fig. 5, the industrial equipment exception handling system includes a PHM subsystem and an identifier resolution subsystem, where the PHM subsystem includes a front end of the PHM subsystem and a back end of the PHM subsystem. The PHM subsystem back end includes time sequence database, structured database, data modeling and visualization component and data stream processing component. The time sequence database is used for storing dynamic data of the industrial equipment, and the dynamic data comprises gateway heartbeat data and industrial equipment state data. The structured database is used for storing industrial equipment configuration data, industrial equipment identification information and the like. The PHM subsystem front end is used for inquiring the identification information on the man-machine interaction operation interface and visually displaying the operation condition of the industrial equipment, a fault list and an alarm list of the industrial equipment and the like. The identification analysis subsystem stores static data such as industrial equipment type parameters, industrial equipment static data, industrial equipment accessory specification information and the like by using the identification through the hosting server.

Specifically, the identification is registered in the identification analysis subsystem for the industrial equipment and all the accessories of the industrial equipment in advance, so that the identification information of the industrial equipment and the identification information of the accessories are obtained, the identification information of the industrial equipment is associated with the identification information of the accessories of all the accessories, the specification information of the accessories is associated with the corresponding identification information of the accessories, and the identification information of the industrial equipment and the configuration data of the industrial equipment are stored in a structural database at the rear end of the PHM subsystem. The identification analysis subsystem stores the accessory identification information by using the industrial equipment identification through the hosting server, and stores the accessory specification information by using the accessory identification.

The PHM subsystem rear end can carry out information interaction with the edge gateway, the industrial equipment configuration data stored in the structured database is issued to the edge gateway through the data stream processing component, so that the edge gateway obtains the industrial equipment state data according to the industrial equipment configuration data, the gateway heartbeat data and the industrial equipment state data are sent to the time sequence database through the data stream processing component, the data modeling and visualization component carries out modeling analysis on the gateway heartbeat data and the industrial equipment state data in the time sequence database, if the industrial equipment state data are abnormal, an industrial equipment fault list and an alarm list are generated, and the operation condition of the industrial equipment, the industrial equipment fault list and the alarm list are displayed by the PHM subsystem front end.

And acquiring the identification information of the industrial equipment from a structured database according to the fault list and the alarm list of the industrial equipment displayed at the front end of the PHM subsystem, and inquiring the identification information of the industrial equipment at the front end of the PHM subsystem. Specifically, the PHM subsystem front end sends a first analysis request including industrial equipment identification information to the identification analysis subsystem, and the identification analysis subsystem receives the first analysis request and analyzes the industrial equipment identification information, and then sends the acquired accessory identification information of all accessories related to the industrial equipment identification information to the structured database, and the PHM subsystem front end displays the accessory identification information of all accessories.

After the accessory identification information of the abnormal accessory is further determined according to the industrial equipment state data and the accessory identification information of all the accessories, a second analysis request is sent to an identification analysis subsystem by the front end of the PHM subsystem, wherein the second analysis request comprises the accessory identification information of the abnormal accessory, the identification analysis subsystem receives the second analysis request and analyzes the accessory identification information of the abnormal accessory, the obtained accessory specification information related to the accessory identification information of the abnormal accessory is sent to a structural database, the accessory specification information of the abnormal accessory is displayed by the front end of the PHM subsystem, and after the accessory specification information of the abnormal accessory is obtained, the abnormal processing is carried out according to the accessory specification information.

Fig. 6 shows a schematic structural diagram of an industrial equipment exception handling device according to an embodiment of the present application. As shown in fig. 6, the apparatus 200 includes: the system comprises a preprocessing module 201, a first obtaining module 202, a first sending module 203, a second obtaining module 204, a second sending module 205, a third obtaining module 206 and an exception handling module 207.

The preprocessing module 201 is configured to establish industrial device identification information and accessory identification information in an identification analysis system in advance, and associate the accessory identification information with the industrial device identification information to which the accessory identification information belongs; the identification analysis system also comprises accessory specification information corresponding to the accessory identification information.

A first obtaining module 202, configured to obtain status data of an accessory;

the first sending module 203 is configured to send a first parsing request to the identifier parsing system if the status data of the accessory is abnormal, where the first parsing request includes industrial device identifier information associated with the accessory, so that the identifier parsing system obtains first trace-back information according to the industrial device identifier information, where the first trace-back information includes accessory identifier information of all accessories associated with the industrial device identifier information;

the second obtaining module 204 is configured to receive the first tracing information, and determine accessory identification information of an accessory with abnormal state data according to the state data and the first tracing information;

a second sending module 205, configured to send a second parsing request to the identifier parsing system, where the second parsing request includes the accessory identification information of the accessory with abnormal state data, so that the identifier parsing system obtains corresponding accessory specification information according to the accessory identification information of the accessory with abnormal state data;

a third obtaining module 206, configured to receive accessory specification information of an accessory that identifies an abnormal status data sent by the parsing system;

and the exception handling module 207 is used for carrying out exception handling according to the accessory specification information.

In the apparatus 200 for processing an industrial device exception provided in the embodiment of the present application, first, the preprocessing module 201 uses an identifier registration service provided by an identifier parsing system to respectively register all accessories of an industrial device and an industrial device in the identifier parsing system in advance to obtain industrial device identifier information and accessory identifier information, and associates all accessory identifier information with the industrial device identifier information, where the accessory identifier information includes an accessory name, and at the same time, associates accessory specification information with corresponding accessory identifier information.

The status data of the accessories is acquired through the first acquisition module 202, when an accessory of the industrial equipment is abnormal, a first analysis request including the identification information of the industrial equipment is sent to the identification analysis system through the first sending module 203, after the identification analysis system receives the first analysis request, the identification information of the industrial equipment is analyzed, so that the identification information of all the accessories related to the identification information of the industrial equipment can be acquired, and the acquired identification information of the accessories is returned to a request end sending the first analysis request. After acquiring the accessory identification information of all the accessories sent by the identification and analysis system, the second acquisition module 204 acquires the accessory identification information of the accessories with abnormal status data according to the status data and the accessory identification information of all the accessories, and sends a second analysis request to the identification and analysis system by the second sending module 205, where the second analysis request includes the accessory identification information of the accessories with abnormal status data, and after receiving the second analysis request, the identification and analysis system analyzes the accessory identification information of the accessories with abnormal status data, so that the third acquisition module 206 can acquire the accessory specification information associated with the accessory identification information of the accessories with abnormal status data, and the exception handling module 207 can quickly perform exception handling according to the accessory specification information.

The quantity and the kind of industrial equipment's accessory are more, and consequently the accessory identification information of industrial equipment's accessory is more, in this application embodiment, only through industrial equipment identification information, can trace back the accessory specification information of this industrial equipment's all accessories, when having solved a certain accessory of industrial equipment and taking place unusually, can't trace back the problem of accessory specification information to the efficiency of obtaining accessory specification information has been improved, and then has improved the unusual efficiency of solving industrial equipment. Meanwhile, the accessory specification information is stored in the identification analysis system by utilizing the accessory identification information, and the static accessory specification information is isolated from the state data of the accessory, so that the safety and the stability of the accessory specification information are improved to a certain extent.

In an optional manner, the first sending module 203 is further configured to obtain an abnormal duration of the accessory if the status data of the accessory is abnormal; and if the abnormal duration of the accessory is longer than a first preset duration, sending a first analysis request to the identifier analysis system.

In an optional manner, the first sending module 203 is further configured to generate alarm information if the abnormal duration of the accessory is greater than a first preset duration; acquiring alarm time according to the alarm information; and if the alarm time interval of the adjacent alarm information is greater than a second preset time length, sending a first analysis request to the identifier analysis system.

In an optional manner, the preprocessing module 201 is further configured to register an identifier for a CPU, a memory bank, a motherboard, a hard disk, and/or a power supply of the industrial device, so as to obtain CPU identifier information, memory bank identifier information, motherboard identifier information, hard disk identifier information, and/or power supply identifier information.

In an optional manner, the preprocessing module 201 is further configured to associate accessory specification information including material description information, model information, accessory barcode information, material number information, and/or complete machine barcode information with corresponding accessory identification information.

Fig. 7 is a schematic structural diagram of an industrial device exception handling device according to an embodiment of the present application, and a specific embodiment of the present application does not limit a specific implementation of the industrial device exception handling device.

As shown in fig. 7, the industrial equipment exception handling apparatus may include: a processor (processor) 302, a communication Interface 304, a memory 306, and a communication bus 308.

Wherein: the processor 302, communication interface 304, and memory 306 communicate with each other via a communication bus 308. A communication interface 304 for communicating with network elements of other devices, such as clients or other servers. The processor 302 is configured to execute the program 310, and may specifically execute the relevant steps in the above-described embodiment of the method for processing the industrial device exception.

In particular, program 310 may include program code comprising computer-executable instructions.

The processor 302 may be a central processing unit CPU, or an Application Specific Integrated Circuit ASIC (Application Specific Integrated Circuit), or one or more Integrated circuits configured to implement embodiments of the present Application. The industrial equipment exception handling equipment comprises one or more processors which can be the same type of processor, such as one or more CPUs; or may be different types of processors such as one or more CPUs and one or more ASICs.

A memory 306 for storing a program 310. Memory 306 may comprise high-speed RAM memory, and may also include non-volatile memory, such as at least one disk memory.

An embodiment of the present application provides a computer-readable storage medium, where the storage medium stores executable instructions, and when the executable instructions are run on an industrial equipment exception handling device, the industrial equipment exception handling device is caused to execute an industrial equipment exception handling method in any method embodiment described above.

The algorithms or displays presented herein are not inherently related to any particular computer, virtual system, or other apparatus. Various general purpose systems may also be used with the teachings herein. The required structure for constructing such a system will be apparent from the description above. In addition, embodiments of the present application are not directed to any particular programming language. It will be appreciated that a variety of programming languages may be used to implement the teachings of the present application as described herein, and any descriptions of specific languages are provided above to disclose the best modes of the present application.

In the description provided herein, numerous specific details are set forth. However, it is understood that embodiments of the application may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the application, various features of the embodiments of the application are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the application and aiding in the understanding of one or more of the various inventive aspects. However, the disclosed method should not be interpreted as reflecting an intention that: this application is intended to cover such departures from the present disclosure as come within known or customary practice in the art to which this invention pertains.

Those skilled in the art will appreciate that the modules in the device in an embodiment may be adaptively changed and disposed in one or more devices different from the embodiment. The modules or units or components of the embodiments may be combined into one module or unit or component, and may be divided into a plurality of sub-modules or sub-units or sub-components. All of the features disclosed in this specification (including any accompanying claims, abstract and drawings), and all of the processes or elements of any method or apparatus so disclosed, may be combined in any combination, except combinations where at least some of such features and/or processes or elements are mutually exclusive. Each feature disclosed in this specification (including any accompanying claims, abstract and drawings) may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise.

It should be noted that the above-mentioned embodiments illustrate rather than limit the application, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The application may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The usage of the words first, second and third, etcetera do not indicate any ordering. These words may be interpreted as names. The steps in the above embodiments should not be construed as limiting the order of execution unless specified otherwise.

Claims (10)

1. The industrial equipment exception handling method is characterized in that industrial equipment identification information and accessory identification information are established in an identification analysis system in advance, and the accessory identification information is associated with the industrial equipment identification information to which the accessory identification information belongs; the identification analysis system further comprises accessory specification information corresponding to the accessory identification information, and the method comprises the following steps:

acquiring state data of the accessory;

if the state data of the accessory is abnormal, sending a first analysis request to the identification analysis system, wherein the first analysis request comprises industrial equipment identification information associated with the accessory, so that the identification analysis system obtains first tracing information according to the industrial equipment identification information, and the first tracing information comprises accessory identification information of all accessories associated with the industrial equipment identification information;

receiving the first tracing information, and determining accessory identification information of an accessory with abnormal state data according to the state data and the first tracing information;

sending a second analysis request to the identification analysis system, wherein the second analysis request comprises the accessory identification information of the accessory with abnormal state data, so that the identification analysis system obtains the corresponding accessory specification information according to the accessory identification information of the accessory with abnormal state data;

receiving accessory specification information of the accessory with abnormal state data, which is sent by the identification analysis system;

and performing exception handling according to the accessory specification information.

2. The method of claim 1, wherein the sending a first resolution request to the identity resolution system if the status data of the accessory is abnormal, further comprising:

if the state data of the accessory is abnormal, acquiring the abnormal duration of the accessory;

and if the abnormal duration of the accessory is longer than a first preset duration, sending the first analysis request to the identifier analysis system.

3. The method of claim 2, wherein the sending the first resolution request to the identity resolution system if the anomaly duration of the accessory is greater than a first preset duration further comprises:

if the abnormal duration of the accessory is longer than the first preset duration, generating alarm information;

acquiring alarm time according to the alarm information;

and if the alarm time interval of the adjacent alarm information is greater than a second preset time length, sending the first analysis request to the identification analysis system.

4. The method of claim 1, wherein the accessory identification information comprises CPU identification information, memory bank identification information, motherboard identification information, hard disk identification information, and/or power supply identification information.

5. The method of claim 1, wherein the specification information of the parts of the industrial equipment includes material description information, model information, part barcode information, material number information, and/or complete machine barcode information.

6. An industrial equipment exception handling system is characterized by comprising a PHM subsystem and an identification analysis subsystem;

the identification analysis subsystem comprises industrial equipment identification information and accessory identification information, and the accessory identification information is associated with the industrial equipment identification information to which the accessory identification information belongs; the accessory identification information is sent to the accessory server;

the PHM subsystem is used for acquiring the state data of the accessory; if the state data of the accessory is abnormal, sending a first analysis request to the identification analysis subsystem, wherein the first analysis request comprises industrial equipment identification information associated with the accessory;

the identification analysis subsystem is used for receiving the first analysis request, acquiring first tracing information according to the identification information of the industrial equipment, and sending the first tracing information to the PHM subsystem, wherein the first tracing information comprises the accessory identification information of all accessories related to the identification information of the industrial equipment;

the PHM subsystem is used for receiving the first tracing information and determining accessory identification information of an accessory with abnormal state data according to the accessory name and the first tracing information; sending a second analysis request to the identification analysis subsystem, wherein the second analysis request comprises the accessory identification information of the accessory with abnormal state data;

the identification analysis subsystem is used for receiving the second analysis request, acquiring corresponding accessory specification information according to the accessory identification information of the accessory with abnormal state data, and sending the accessory specification information corresponding to the accessory identification information of the accessory with abnormal state data to the PHM subsystem;

the PHM subsystem is also used for receiving the accessory specification information of the accessory with abnormal state data, which is sent by the identification analysis subsystem; and performing exception handling according to the specification information.

7. The industrial equipment exception handling system of claim 6 wherein the PHM subsystem is further configured to obtain an exception duration for an accessory when the status data for the accessory is abnormal;

when the abnormal duration of the accessory is longer than a first preset duration, generating alarm information;

acquiring alarm time according to the alarm information;

and when the alarm time interval of the adjacent alarm information is greater than a second preset time, sending a first analysis request to the identifier analysis subsystem.

8. An industrial equipment exception handling apparatus, the apparatus comprising:

the system comprises a preprocessing module, an identification analysis module and a display module, wherein the preprocessing module is used for establishing industrial equipment identification information and accessory identification information in an identification analysis system in advance and associating the accessory identification information with the industrial equipment identification information to which the accessory identification information belongs; the identification analysis system also comprises accessory specification information corresponding to the accessory identification information;

the first acquisition module is used for acquiring the state data of the accessory;

the first sending module is used for sending a first analysis request to the identification analysis system if the state data of the accessory is abnormal, wherein the first analysis request comprises industrial equipment identification information associated with the accessory, so that the identification analysis system obtains first tracing information according to the industrial equipment identification information, and the first tracing information comprises accessory identification information of all accessories associated with the industrial equipment identification information;

the second acquisition module is used for receiving the first tracing information and determining accessory identification information of an accessory with abnormal state data according to the state data and the first tracing information;

the second sending module is used for sending a second analysis request to the identification analysis system, wherein the second analysis request comprises the accessory identification information of the accessory with abnormal state data, so that the identification analysis system can obtain the corresponding accessory specification information according to the accessory identification information of the accessory with abnormal state data;

the third acquisition module is used for receiving the accessory specification information of the accessory with abnormal state data, which is sent by the identification analysis system;

and the exception handling module is used for carrying out exception handling according to the accessory specification information.

9. An industrial equipment exception handling apparatus, comprising: the system comprises a processor, a memory, a communication interface and a communication bus, wherein the processor, the memory and the communication interface complete mutual communication through the communication bus;

the memory is configured to store at least one executable instruction that causes the processor to perform the method of industrial equipment exception handling of any one of claims 1-6.

10. A computer storage medium having stored therein at least one executable instruction for causing a processor to perform the industrial device exception handling method of any one of claims 1-6.

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