CN117291399B - Visual chemical card data processing method and system based on XML - Google Patents

Abstract

The application discloses a visual chemical card data processing method and system based on XML, and relates to the technical field of work card data processing. The method comprises the steps of firstly finding an in-use maintenance work card corresponding to a target machine type and a file before updating the original factory manual corresponding to the in-use maintenance work card after acquiring an original factory manual updating file of the target machine type, then obtaining two XML data structures through XML conversion and analysis processing based on the two files, then comparing process information differences in the two data structures for each maintenance process in the maintenance work card, automatically generating corresponding maintenance new processes when the differences exist, and finally pushing the maintenance new processes and the corresponding maintenance processes to a human-computer interaction interface for visual difference display so as to ensure that a work card manager confirms that the maintenance work card is updated, thus the labor resource cost can be greatly reduced, and the work card updating speed and the work efficiency can be improved.

Description

Visual chemical card data processing method and system based on XML

Technical Field

The invention belongs to the technical field of work card data processing, and particularly relates to a visual chemical card data processing method and system based on XML.

Background

With the deep development of aviation industry in China, the national strategy of civil aviation brings higher requirements to the aspects of civil aviation industry. Various technical manuals of aircraft manufacturers and component manufacturers are basic navigability data which must be complied with in aircraft maintenance, and play an increasingly important role in improving the depth and breadth of aircraft maintenance.

Work cards, also called work cards or work orders, are documents that are used by the civil aviation airworthiness regulations and in which the order of work and steps are set and recorded (it is not necessary to list the methods and standards for implementation of maintenance work, but there are explicit requirements in the CCAR-145 section). In the civil aviation field, work cards are commonly required from line maintenance to aircraft, engine inspection or overhaul and accessory maintenance. The repair work card is an instructional document for the repair/inspection work of the airline to guide the completion of the repair work. The repair work card, which completes the work and signs correctly, is a proof of repair quality and aircraft airworthiness, as part of the aircraft repair history. The repair work card may include not only technical instructions, construction standards and precautions for performing the repair work, but also the procedures and inspection requirements required for repair, repair and retrofit work. In general, at the beginning of the repair work card, what and when will be written, which come from the repair plan, and at the rear of the repair work card, repair procedures will be listed to indicate what the repair work should be done, which are from technical documents and manuals of the machine type.

At present, after the aircraft manufacturer and the component manufacturer issue the technical manual of a certain model for the first time, the aircraft manufacturer and the component manufacturer can issue the new version technical manual of the certain model continuously at regular or irregular time, so that the maintenance work card edited for the certain model may have the requirement that the maintenance process also needs to be updated asynchronously. However, the existing maintenance work card updating technical means is mainly realized by a mode that a work card manager manually reads and understands a new version technical manual and manually edits and updates a maintenance procedure, and the problems of high manpower resource consumption, easiness in manual error, low updating speed and low working efficiency are necessarily caused.

Disclosure of Invention

The invention aims to provide a visual chemical card data processing method, a visual chemical card data processing system and a computer readable storage medium based on XML (extensive markup language), which are used for solving the problems of high human resource consumption, easiness in human error, low updating speed and low working efficiency of the existing maintenance work card updating technical means.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

in a first aspect, there is provided an XML-based visual card data processing method, including:

acquiring an original factory manual update file of a target machine type;

Searching whether an in-use maintenance work card corresponding to the target machine type exists in a maintenance work card database according to the target machine type;

if the service manual is available, searching a file before updating the service manual corresponding to the service repair work card and the target model in a file library of the service manual, wherein the service repair work card is edited in advance based on the file before updating the service manual;

converting the original factory manual pre-update file into a first XML file, and converting the original factory manual update file into a second XML file;

XML analysis processing is carried out on the first XML file to obtain a first XML data structure, and XML analysis processing is also carried out on the second XML file to obtain a second XML data structure;

for each maintenance procedure in the in-use maintenance work card, corresponding procedure information in the first XML data structure is determined, and when the corresponding procedure information is compared and found to have a difference with corresponding procedure information in the second XML data structure, a corresponding new maintenance procedure is automatically generated according to the corresponding procedure information;

pushing the new maintenance procedure and the maintenance procedure corresponding to the new maintenance procedure to a human-computer interaction interface for visual difference display so as to ensure that a work card manager confirms whether to accept procedure update;

If a procedure update receiving confirmation instruction is received through the man-machine interaction interface, updating the maintenance procedure which is in the in-use maintenance work card and corresponds to the maintenance new procedure into the maintenance new procedure;

the in-use repair work card after the repair process updating operation is used as a new in-use repair work card edited based on the original factory manual updating file and replaces the in-use repair work card in the repair work card database, and the original factory manual updating file is stored in the original factory manual file library;

when another in-use repair work card corresponding to the target model is also found in the repair work card database according to the target model, after updating the repair process corresponding to the repair new process in the in-use repair work card to the repair new process, the method further includes: when the maintenance process corresponding to the new maintenance process is present in the other service maintenance card, the maintenance process corresponding to the new maintenance process in the other service maintenance card is updated to the new maintenance process.

Based on the above summary, a new scheme capable of semi-automatically updating a maintenance work card is provided, namely, after an original factory manual update file of a target machine type is obtained, an in-use maintenance work card corresponding to the target machine type and an original factory manual update file corresponding to the in-use maintenance work card are found, then two XML data structures are obtained through XML conversion and analysis processing based on the two files, then for each maintenance procedure in the maintenance work card, procedure information differences in the two XML data structures are compared, corresponding maintenance new procedures are automatically generated when the procedure information differences exist, and finally the maintenance new procedures and the corresponding maintenance procedures are pushed to a man-machine interaction interface for visual difference display, so that a work card manager confirms that the maintenance work card update is completed, manual reading and understanding of the new version technical manual and manual editing of the maintenance procedures are not needed, manpower resource expenditure can be greatly reduced, manual errors are avoided, the work card update speed and work efficiency are improved, and the practical application and popularization are facilitated.

In one possible design, the original factory manual update file of the target model is obtained, including:

regularly polling and accessing original factory manual file release websites of various models;

when a source factory manual file issuing website for accessing and discovering a target machine type issues a source factory manual update file of the target machine type, downloading and acquiring the source factory manual update file.

In one possible design, for each repair procedure in the service repair work card, automatically generating a corresponding repair new procedure according to the corresponding procedure information, including:

and calling a prefabricated professional structured XML editor for each maintenance procedure in the in-use maintenance work card to automatically compile the corresponding procedure information into a corresponding new maintenance procedure.

In one possible design, the specialized structured XML editor has batch translation functionality to translate English nodes based on a translation engine and/or verification functionality to check the structural integrity of the context based on a DTD file.

In one possible design, pushing the new repair procedure and the repair procedure corresponding to the new repair procedure to a man-machine interaction interface for visual difference display includes:

Pushing the new maintenance procedure and the maintenance procedure corresponding to the new maintenance procedure to a man-machine interaction interface for two-procedure left-right display, and displaying the difference points of the two procedures in a highlight mode.

In one possible design, after obtaining the first XML data structure and the second XML data structure, the method further comprises:

automatically generating a new repair procedure according to new procedure information when the comparison finds that the new procedure information exists in the second XML data structure and does not exist in the first XML data structure;

pushing the in-use maintenance work card and the new maintenance procedure to the man-machine interaction interface for display, so that the work card manager can confirm whether to add the new procedure;

and if a new procedure adding confirmation instruction is received through the man-machine interaction interface, adding the new maintenance procedure into the in-use maintenance work card.

In one possible design, after obtaining the first XML data structure and the second XML data structure, the method further comprises:

pushing the in-use maintenance work card and the old process information to the man-machine interaction interface for display when the old process information which exists in the first XML data structure and does not exist in the second XML data structure is found by comparison, so that the work card manager can confirm whether to delete the old process;

And deleting a certain maintenance procedure corresponding to the old procedure information in the in-service maintenance work card if an old procedure deleting confirmation instruction is received through the man-machine interaction interface.

The second aspect provides an XML-based visual chemical card data processing system, which comprises a file acquisition module, a work card searching module, a file conversion module, an analysis processing module, an information comparison module, a procedure pushing module, a procedure updating module and a work card replacing module which are sequentially in communication connection;

the file acquisition module is used for acquiring an original factory manual update file of the target machine type;

the work card searching module is used for searching whether an in-use maintenance work card corresponding to the target machine type exists in a maintenance work card database according to the target machine type;

the file searching module is used for searching a file before updating the original factory manual corresponding to the in-use maintenance work card and the target machine type in an original factory manual file library if the in-use maintenance work card exists, wherein the in-use maintenance work card is obtained by editing the file before updating the original factory manual in advance;

the file conversion module is used for converting the original factory manual pre-update file into a first XML file and converting the original factory manual update file into a second XML file;

The analysis processing module is used for carrying out XML analysis processing on the first XML file to obtain a first XML data structure, and carrying out XML analysis processing on the second XML file to obtain a second XML data structure;

the information comparison module is used for determining corresponding procedure information in the first XML data structure for each maintenance procedure in the in-use maintenance work card, and automatically generating a corresponding new maintenance procedure according to the corresponding procedure information when the corresponding procedure information is found to be different from the corresponding procedure information in the second XML data structure by comparison;

the procedure pushing module is used for pushing the new maintenance procedure and the maintenance procedure corresponding to the new maintenance procedure to a man-machine interaction interface for visual difference display so as to ensure that a work card manager confirms whether to accept procedure update or not;

the procedure updating module is used for updating the maintenance procedure which is in the in-use maintenance work card and corresponds to the maintenance new procedure into the maintenance new procedure if a procedure updating acceptance confirmation instruction is received through the man-machine interaction interface;

the work card replacement module is used for taking the in-use maintenance work card which completes the maintenance procedure updating action as a new in-use maintenance work card which is edited based on the original factory manual updating file, replacing the in-use maintenance work card in the maintenance work card database, and storing the original factory manual updating file into the original factory manual file library;

The process updating module is further configured to, when another in-use repair work card corresponding to the target model is also found in the repair work card database according to the target model and the repair process corresponding to the repair new process is present in the other in-use repair work card, update the repair process corresponding to the repair new process in the in-use repair work card to the repair new process after updating the repair process corresponding to the repair new process in the in-use repair work card, and update the repair process corresponding to the repair new process in the other in-use repair work card to the repair new process.

In a third aspect, the present invention provides another XML-based visual card data processing system, including a memory, a processor and a transceiver, which are in communication connection in sequence, where the memory is configured to store a computer program, the transceiver is configured to send and receive a message, and the processor is configured to read the computer program, and perform the visual card data processing method according to the first aspect or any of the possible designs of the first aspect.

In a fourth aspect, the present invention provides a computer readable storage medium having instructions stored thereon which, when executed on a computer, perform the method of visual card data processing as described in the first aspect or any of the possible designs of the first aspect.

In a fifth aspect, the present invention provides a computer program product comprising instructions which, when run on a computer, cause the computer to perform the method of processing data for a visualization card as described in the first aspect or any of the possible designs of the first aspect.

The beneficial effect of above-mentioned scheme:

(1) The invention creatively provides a new scheme capable of semi-automatically updating a maintenance work card, namely after an original factory manual update file of a target machine type is acquired, an in-use maintenance work card corresponding to the target machine type and an original factory manual update file corresponding to the in-use maintenance work card are found, then two XML data structures are obtained through XML conversion and analysis processing based on the two files, then for each maintenance procedure in the maintenance work card, procedure information differences in the two XML data structures are compared, corresponding maintenance new procedures are automatically generated when the procedure information differences exist, and finally the maintenance new procedures and corresponding maintenance procedures are pushed to a man-machine interaction interface for visual difference display, so that a work card manager confirms that the maintenance work card is updated, manual reading is not needed, the new version technical manual is not needed, the maintenance procedures are manually edited, human resource expenditure can be greatly reduced, manual errors are avoided, the work card update speed and the work efficiency are improved, and the practical application and popularization are convenient.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic flow chart of an XML-based visual card data processing method according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of an XML-based visualization card data processing system according to an embodiment of the present application.

FIG. 3 is a schematic diagram of another embodiment of an XML-based visualization card data processing system.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be briefly described below with reference to the accompanying drawings and the description of the embodiments or the prior art, and it is obvious that the following description of the structure of the drawings is only some embodiments of the present invention, and other drawings can be obtained according to these drawings without inventive effort to a person skilled in the art. It should be noted that the description of these examples is for aiding in understanding the present invention, but is not intended to limit the present invention.

It should be understood that although the terms first and second, etc. may be used herein to describe various objects, these objects should not be limited by these terms. These terms are only used to distinguish one object from another. For example, a first object may be referred to as a second object, and similarly a second object may be referred to as a first object, without departing from the scope of example embodiments of the invention.

It should be understood that for the term "and/or" that may appear herein, it is merely one association relationship that describes an associated object, meaning that there may be three relationships, e.g., a and/or B, may represent: three cases of A alone, B alone or both A and B exist; as another example, A, B and/or C, can represent the presence of any one of A, B and C or any combination thereof; for the term "/and" that may appear herein, which is descriptive of another associative object relationship, it means that there may be two relationships, e.g., a/and B, it may be expressed that: the two cases of A and B exist independently or simultaneously; in addition, for the character "/" that may appear herein, it is generally indicated that the context associated object is an "or" relationship.

Examples

As shown in fig. 1, the method for processing data of the visualization card based on XML according to the first aspect of the present embodiment may be performed by, but not limited to, a computer device with a certain computing resource, for example, a platform server, a personal computer (Personal Computer, PC, refer to a multipurpose computer with a size, price and performance suitable for personal use, a desktop computer, a notebook computer, a small notebook computer, a tablet computer, an ultrabook, etc. all belong to a personal computer), a smart phone, a personal digital assistant (Personal Digital Assistant, PDA), or an electronic device such as a wearable device. As shown in fig. 1, the method for processing the data of the visual card may include, but is not limited to, the following steps S1 to S9.

S1, acquiring an original factory manual update file of a target machine type.

In the step S1, the target model may be, but is not limited to, a specific model of the aircraft as a whole or of an aircraft component (e.g., an aircraft engine, etc.), which may be specifically targeted by tracking a currently in-use repair card. The original factory manual update file is a new version technical manual which is continuously issued by an aircraft manufacturer and a component manufacturer of the target machine type at regular or irregular time after the technical manual is issued for the first time. Specifically, the original factory manual update file of the target model is obtained, including but not limited to the following steps S11 to S12.

S11, periodically polling and accessing original factory manual file release websites of various machine types.

In the step S11, a specific web site of the original manual file distribution site may be designated in advance by a work card administrator so as to access the original manual file distribution site conventionally. Specifically, the original factory manual file release website of each model can be accessed in a polling mode at about 6 a.m. every day without being limited to.

S12, when the original factory manual file publishing website which accesses the original factory manual file of the found target machine type publishes the original factory manual update file of the target machine type, downloading and obtaining the original factory manual update file.

In the step S12, the specific downloading manner of the factory manual update file may be implemented based on the existing crawler technology, but is not limited to the specific downloading manner.

S2, searching whether an in-use maintenance work card corresponding to the target machine type exists in a maintenance work card database according to the target machine type.

In the step S2, the active repair work card is a repair work card obtained for the target model editing (including initial manual editing or subsequent semiautomatic update editing) and used at the time of repair, and the start part describes "what to do" and "when to do", and the end part lists at least one repair procedure to instruct the repair work "how to do". Since the target model and the service repair card are associated with each other at the time of editing, it is possible to find whether or not the service repair card corresponding to the target model exists in the repair card database conventionally, specifically based on such association. Furthermore, the number of service cards in use may be plural to correspond to different pluralities of service scenarios.

S3, if the service manual is present, searching a file before updating the service manual corresponding to the service repair work card and the target machine type in a service manual file library, wherein the service repair work card is obtained by editing the file before updating the service repair work card based on the service manual in advance.

In the step S3, the original factory manual update file is a technical manual issued by the aircraft manufacturer and the component manufacturer of the target model before the original factory manual update file is issued.

S4, converting the original factory manual pre-update file into a first XML file, and converting the original factory manual update file into a second XML file.

In the step S4, since XML (Extensible Markup Language ) is a markup language very similar to HTML (Hyper Text Markup Language ) designed to store and transmit data, the original technical manual file can be conventionally converted into a corresponding XML file using an existing XML format conversion tool for subsequent XML parsing processing.

S5, carrying out XML analysis processing on the first XML file to obtain a first XML data structure, and carrying out XML analysis processing on the second XML file to obtain a second XML data structure.

In the step S5, the XML parsing process parses the XML file into a tree structure, so that the program is convenient to read and process data in the XML file, and therefore, the first XML data structure and the second XML data structure are both tree structures, so that the subsequent reading and processing can be performed. Furthermore, the XML parsing process may be implemented specifically, but not exclusively, using an existing XML parser.

S6, corresponding procedure information in the first XML data structure is determined for each maintenance procedure in the in-use maintenance work card, and when the corresponding procedure information is found to be different from corresponding procedure information in the second XML data structure by comparison, a corresponding new maintenance procedure is automatically generated according to the corresponding procedure information.

In the step S6, the maintenance procedure specifically includes, but is not limited to, one maintenance step or a plurality of maintenance steps having an execution order, and the procedure information also specifically includes, but is not limited to, one maintenance step detail or a plurality of maintenance step detail having an execution order, so that the procedure information of each maintenance procedure and in the first XML data structure can be conventionally determined based on the history generation correspondence. Since at least one procedure information existing in the first XML data structure may have a one-to-one maintaining/evolving relationship with at least one procedure information existing in the second XML data structure, procedure information corresponding to the corresponding procedure information may be conventionally found in the second XML data structure based on such maintaining/evolving relationship; for example, if the repair process a, repair process B, and repair process C are included in the repair work card, and if the process information a corresponding to the repair process a, the process information B corresponding to the repair process B, the process information C corresponding to the repair process C, and the process information d are included in the first XML data structure, and the process information a, the process information B, the process information c″ that is evolved based on the process information C, and the process information d″ that is evolved based on the process information d are included in the second XML data structure, it is possible to compare the process information a in the first XML data structure with the process information a in the second XML data structure for the repair process a, and no difference is found; comparing the process information B in the first XML data structure with the process information B in the second XML data structure for the maintenance process B, finding no difference; for the maintenance process C, comparing the process information C in the first XML data structure with the process information c″ in the second XML data structure, finding a difference, and further automatically generating a new maintenance process corresponding to the maintenance process C according to the process information c″.

In the step S6, specifically, for each repair process in the in-service repair work card, a corresponding repair new process is automatically generated according to the corresponding process information, including but not limited to: and calling a prefabricated professional structured XML editor for each maintenance procedure in the in-use maintenance work card to automatically compile the corresponding procedure information into a corresponding new maintenance procedure. The foregoing professional structured XML editor may be obtained by the industry and card administrator modifying the existing XML editor conventionally for the professional characteristics of aircraft maintenance, and in detail, the professional structured XML editor has, but is not limited to, a batch translation function of translating english nodes based on a translation engine and/or a checking function of checking the structural integrity of a context based on a DTD (Document Type Definition, document type definition, a set of grammatical rules about markers established for data exchange between programs), etc.

S7, pushing the new maintenance procedure and the maintenance procedure corresponding to the new maintenance procedure to a man-machine interaction interface for visual difference display so as to ensure that a work card manager can confirm whether to accept procedure update.

In step S7, in order to clearly and prominently show the difference between the two processes, it is preferable that the new repair process and the repair process corresponding to the new repair process are pushed to a man-machine interface to perform visual difference display, including but not limited to: pushing the new maintenance procedure and the maintenance procedure corresponding to the new maintenance procedure to a man-machine interaction interface for two-procedure left-right display, and displaying the difference points of the two procedures in a highlight mode. The difference point may be, but is not limited to being, a certain step or a certain term in a certain step, in particular, a disappearance, a new or a change. In addition, the different difference points of the two procedures can be displayed in a highlighted mode in a switching mode in a mode of responding to the switching operation of the work card manager.

S8, if a procedure update receiving confirmation instruction is received through the man-machine interaction interface, updating the maintenance procedure which is in the in-use maintenance work card and corresponds to the maintenance new procedure into the maintenance new procedure.

In the step S8, the process update acceptance confirmation instruction is triggered and obtained by the work card administrator when agreeing to update, for example, a certain virtual button on the man-machine interaction interface is clicked to trigger generation; the process update acceptance confirmation command may correspond to a certain pair of repair processes and repair new processes, or may correspond to a plurality of pairs of repair processes and repair new processes. For updating the repair process corresponding to the repair new process in the service repair card to the repair new process, for example, the repair new process corresponding to the repair process C may be replaced with the repair new process in the service repair card. In order to avoid repeating steps S3 to S7 and to speed up the work card update efficiency, considering that there may be a plurality of in-use repair work cards corresponding to the target model, it is preferable that when another in-use repair work card corresponding to the target model is also found in the repair work card database according to the target model, after updating the repair process corresponding to the repair new process in the in-use repair work card, the method further includes, but is not limited to: when the maintenance process corresponding to the new maintenance process is present in the other service maintenance card, the maintenance process corresponding to the new maintenance process in the other service maintenance card is updated to the new maintenance process. For example, when the maintenance process C is present in the other service repair card, the maintenance process C in the other service repair card may be replaced with a new maintenance process corresponding to the maintenance process C.

S9, using the in-use maintenance work card with the maintenance procedure updating action completed as a new in-use maintenance work card obtained by editing based on the original factory manual updating file, replacing the in-use maintenance work card in the maintenance work card database, and storing the original factory manual updating file into the original factory manual file library.

In the step S9, the new service card is a new version of the service card that is obtained by asynchronously updating the update file of the original factory manual in response to the update file of the original factory manual on the basis of the service card. Further, if there are K (K represents a positive integer of 2 or more) pairs of repair steps and repair new steps, but only the repair steps and repair new steps are instructed to be accepted for K (K represents a positive integer of less than K) (i.e., the partial approval of the modification), the in-use repair card for which the partial repair step updating operation is completed may be used as a new in-use repair card edited based on a factory manual merge file, which is a result of union processing of the factory manual update file and the factory manual pre-update file, and the in-use repair card in the repair card database may be replaced, and the factory manual merge file may be stored in the factory manual file library.

In addition, for the purpose of semi-automatically adding a new repair procedure in the service repair card, it is preferable that after obtaining the first XML data structure and the second XML data structure, the method further includes, but is not limited to, having: automatically generating a new repair procedure according to new procedure information when the comparison finds that the new procedure information exists in the second XML data structure and does not exist in the first XML data structure; pushing the in-use maintenance work card and the new maintenance procedure to the man-machine interaction interface for display, so that the work card manager can confirm whether to add the new procedure; and if a new procedure adding confirmation instruction is received through the man-machine interaction interface, adding the new maintenance procedure into the in-use maintenance work card. For example, when new procedure information E (which is not in the first XML data structure) is still present in the second XML data structure, a new repair procedure E may also be automatically generated according to the new procedure information E, and the new repair procedure E may be added to the in-use repair work card (when the addition is agreed) so as to obtain the new in-use repair work card having the new repair procedure E.

In addition, for the purpose of semi-automatically deleting the inapplicable repair procedure in the service repair card, it is preferable that, after obtaining the first XML data structure and the second XML data structure, the method further includes, but is not limited to: pushing the in-use maintenance work card and the old process information to the man-machine interaction interface for display when the old process information which exists in the first XML data structure and does not exist in the second XML data structure is found by comparison, so that the work card manager can confirm whether to delete the old process; and deleting a certain maintenance procedure corresponding to the old procedure information in the in-service maintenance work card if an old procedure deleting confirmation instruction is received through the man-machine interaction interface. For example, when there is old process information a in the first XML data structure (which is not in the second XML data structure), the repair process a in the service repair card may be deleted when deletion is agreed, to obtain the new service repair card without the repair process a.

The visual chemical card data processing method described in the steps S1-S9 provides a new scheme capable of semi-automatically updating the maintenance work card, namely after the original factory manual update file of the target machine type is obtained, the used maintenance work card corresponding to the target machine type and the original factory manual update file corresponding to the used maintenance work card are found, then two XML data structures are obtained through XML conversion and analysis processing based on the two files, then for each maintenance procedure in the maintenance work card, procedure information difference in the two XML data structures is compared, corresponding maintenance new procedures are automatically generated when the difference exists, finally the maintenance new procedures and the corresponding maintenance procedures are pushed to a human-computer interaction interface for visual difference display, so that a work card manager can confirm that the maintenance work card update is completed, the manual of a new version is not required to be read and understood, the maintenance procedures are manually edited, the manpower resource cost can be greatly reduced, the manual error is avoided, the work card update speed and the work efficiency are improved, and the visual application and popularization are convenient.

As shown in fig. 2, a second aspect of the present embodiment provides a virtual system for implementing the visual card data processing method according to the first aspect, where the virtual system includes a file acquisition module, a work card searching module, a file conversion module, an analysis processing module, an information comparison module, a procedure pushing module, a procedure updating module and a work card replacement module that are sequentially connected in a communication manner;

the file acquisition module is used for acquiring an original factory manual update file of the target machine type;

the work card searching module is used for searching whether an in-use maintenance work card corresponding to the target machine type exists in a maintenance work card database according to the target machine type;

the file searching module is used for searching a file before updating the original factory manual corresponding to the in-use maintenance work card and the target machine type in an original factory manual file library if the in-use maintenance work card exists, wherein the in-use maintenance work card is obtained by editing the file before updating the original factory manual in advance;

the file conversion module is used for converting the original factory manual pre-update file into a first XML file and converting the original factory manual update file into a second XML file;

the analysis processing module is used for carrying out XML analysis processing on the first XML file to obtain a first XML data structure, and carrying out XML analysis processing on the second XML file to obtain a second XML data structure;

The information comparison module is used for determining corresponding procedure information in the first XML data structure for each maintenance procedure in the in-use maintenance work card, and automatically generating a corresponding new maintenance procedure according to the corresponding procedure information when the corresponding procedure information is found to be different from the corresponding procedure information in the second XML data structure by comparison;

the procedure pushing module is used for pushing the new maintenance procedure and the maintenance procedure corresponding to the new maintenance procedure to a man-machine interaction interface for visual difference display so as to ensure that a work card manager confirms whether to accept procedure update or not;

the procedure updating module is used for updating the maintenance procedure which is in the in-use maintenance work card and corresponds to the maintenance new procedure into the maintenance new procedure if a procedure updating acceptance confirmation instruction is received through the man-machine interaction interface;

the work card replacement module is used for taking the in-use maintenance work card which completes the maintenance procedure updating action as a new in-use maintenance work card which is edited based on the original factory manual updating file, replacing the in-use maintenance work card in the maintenance work card database, and storing the original factory manual updating file into the original factory manual file library;

The process updating module is further configured to, when another in-use repair work card corresponding to the target model is also found in the repair work card database according to the target model and the repair process corresponding to the repair new process is present in the other in-use repair work card, update the repair process corresponding to the repair new process in the in-use repair work card to the repair new process after updating the repair process corresponding to the repair new process in the in-use repair work card, and update the repair process corresponding to the repair new process in the other in-use repair work card to the repair new process.

The working process, working details and technical effects of the foregoing system provided in the second aspect of the present embodiment may refer to the method for processing data of a visualization card described in the first aspect, which are not described herein again.

As shown in fig. 3, a third aspect of the present embodiment provides an entity system for executing the data processing method of the visual card according to the first aspect, which includes a memory, a processor and a transceiver that are sequentially communicatively connected, where the memory is configured to store a computer program, the transceiver is configured to send and receive a message, and the processor is configured to read the computer program and execute the data processing method of the visual card according to the first aspect. By way of specific example, the Memory may include, but is not limited to, random-Access Memory (RAM), read-Only Memory (ROM), flash Memory (Flash Memory), first-in first-out Memory (First Input First Output, FIFO), and/or first-in last-out Memory (First Input Last Output, FILO), etc.; the processor may be, but is not limited to, a microprocessor of the type STM32F105 family. In addition, the system may include, but is not limited to, a power module, a display screen, and other necessary components.

The working process, working details and technical effects of the foregoing system provided in the third aspect of the present embodiment may refer to the method for processing data of a visualization card described in the first aspect, which are not described herein again.

A fourth aspect of the present embodiment provides a computer-readable storage medium storing instructions containing the visual chemical card data processing method according to the first aspect, i.e. the computer-readable storage medium has instructions stored thereon that, when executed on a computer, perform the visual chemical card data processing method according to the first aspect. The computer readable storage medium refers to a carrier for storing data, and may include, but is not limited to, a floppy disk, an optical disk, a hard disk, a flash Memory, and/or a Memory Stick (Memory Stick), where the computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable devices.

The working process, working details and technical effects of the foregoing computer readable storage medium provided in the fourth aspect of the present embodiment may refer to the method for processing data of a visualization card according to the first aspect, which are not described herein again.

A fifth aspect of the present embodiment provides a computer program product comprising instructions which, when run on a computer, cause the computer to perform the method of processing visualization card data as described in the first aspect. Wherein the computer may be a general purpose computer, a special purpose computer, a computer network, or other programmable apparatus.

Finally, it should be noted that: the foregoing description is only of the preferred embodiments of the invention and is not intended to limit the scope of the invention. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The method for processing the visual chemical card data based on the XML is characterized by comprising the following steps of:

acquiring an original factory manual update file of a target machine type;

searching whether an in-use maintenance work card corresponding to the target machine type exists in a maintenance work card database according to the target machine type;

if the service manual is available, searching a file before updating the service manual corresponding to the service repair work card and the target model in a file library of the service manual, wherein the service repair work card is edited in advance based on the file before updating the service manual;

converting the original factory manual pre-update file into a first XML file, and converting the original factory manual update file into a second XML file;

XML analysis processing is carried out on the first XML file to obtain a first XML data structure, and XML analysis processing is also carried out on the second XML file to obtain a second XML data structure;

For each maintenance procedure in the in-use maintenance work card, corresponding procedure information in the first XML data structure is determined, and when the corresponding procedure information is compared and found to have a difference with corresponding procedure information in the second XML data structure, a corresponding new maintenance procedure is automatically generated according to the corresponding procedure information;

pushing the new maintenance procedure and the maintenance procedure corresponding to the new maintenance procedure to a human-computer interaction interface for visual difference display so as to ensure that a work card manager confirms whether to accept procedure update;

if a procedure update receiving confirmation instruction is received through the man-machine interaction interface, updating the maintenance procedure which is in the in-use maintenance work card and corresponds to the maintenance new procedure into the maintenance new procedure;

the in-use repair work card after the repair process updating operation is used as a new in-use repair work card edited based on the original factory manual updating file and replaces the in-use repair work card in the repair work card database, and the original factory manual updating file is stored in the original factory manual file library;

when another in-use repair work card corresponding to the target model is also found in the repair work card database according to the target model, after updating the repair process corresponding to the repair new process in the in-use repair work card to the repair new process, the method further includes: when the maintenance process corresponding to the new maintenance process is present in the other service maintenance card, the maintenance process corresponding to the new maintenance process in the other service maintenance card is updated to the new maintenance process.

2. The method for processing visual card data according to claim 1, wherein obtaining the original factory manual update file of the target model comprises:

regularly polling and accessing original factory manual file release websites of various models;

when a source factory manual file issuing website for accessing and discovering a target machine type issues a source factory manual update file of the target machine type, downloading and acquiring the source factory manual update file.

3. The method for processing visual card data according to claim 1, wherein for each maintenance process in the in-service maintenance card, a corresponding maintenance new process is automatically generated based on the corresponding process information, comprising:

and calling a prefabricated professional structured XML editor for each maintenance procedure in the in-use maintenance work card to automatically compile the corresponding procedure information into a corresponding new maintenance procedure.

4. A method of processing visual card data according to claim 3, wherein the specialized structured XML editor has batch translation functionality for translating english nodes based on a translation engine and/or verification functionality for checking the structural integrity of a context based on a DTD file.

5. The visual card data processing method according to claim 1, wherein pushing the new maintenance procedure and the maintenance procedure corresponding to the new maintenance procedure to a human-computer interaction interface for visual difference display comprises:

Pushing the new maintenance procedure and the maintenance procedure corresponding to the new maintenance procedure to a man-machine interaction interface for two-procedure left-right display, and displaying the difference points of the two procedures in a highlight mode.

6. The method of claim 1, further comprising, after obtaining the first XML data structure and the second XML data structure:

automatically generating a new repair procedure according to new procedure information when the comparison finds that the new procedure information exists in the second XML data structure and does not exist in the first XML data structure;

pushing the in-use maintenance work card and the new maintenance procedure to the man-machine interaction interface for display, so that the work card manager can confirm whether to add the new procedure;

and if a new procedure adding confirmation instruction is received through the man-machine interaction interface, adding the new maintenance procedure into the in-use maintenance work card.

7. The method of claim 1, further comprising, after obtaining the first XML data structure and the second XML data structure:

Pushing the in-use maintenance work card and the old process information to the man-machine interaction interface for display when the old process information which exists in the first XML data structure and does not exist in the second XML data structure is found by comparison, so that the work card manager can confirm whether to delete the old process;

and deleting a certain maintenance procedure corresponding to the old procedure information in the in-service maintenance work card if an old procedure deleting confirmation instruction is received through the man-machine interaction interface.

8. The visual chemical card data processing system based on the XML is characterized by comprising a file acquisition module, a work card searching module, a file conversion module, an analysis processing module, an information comparison module, a procedure pushing module, a procedure updating module and a work card replacing module which are connected in sequence in a communication mode;

the file acquisition module is used for acquiring an original factory manual update file of the target machine type;

the work card searching module is used for searching whether an in-use maintenance work card corresponding to the target machine type exists in a maintenance work card database according to the target machine type;

the file searching module is used for searching a file before updating the original factory manual corresponding to the in-use maintenance work card and the target machine type in an original factory manual file library if the in-use maintenance work card exists, wherein the in-use maintenance work card is obtained by editing the file before updating the original factory manual in advance;

The file conversion module is used for converting the original factory manual pre-update file into a first XML file and converting the original factory manual update file into a second XML file;

the analysis processing module is used for carrying out XML analysis processing on the first XML file to obtain a first XML data structure, and carrying out XML analysis processing on the second XML file to obtain a second XML data structure;

the information comparison module is used for determining corresponding procedure information in the first XML data structure for each maintenance procedure in the in-use maintenance work card, and automatically generating a corresponding new maintenance procedure according to the corresponding procedure information when the corresponding procedure information is found to be different from the corresponding procedure information in the second XML data structure by comparison;

the procedure pushing module is used for pushing the new maintenance procedure and the maintenance procedure corresponding to the new maintenance procedure to a man-machine interaction interface for visual difference display so as to ensure that a work card manager confirms whether to accept procedure update or not;

the procedure updating module is used for updating the maintenance procedure which is in the in-use maintenance work card and corresponds to the maintenance new procedure into the maintenance new procedure if a procedure updating acceptance confirmation instruction is received through the man-machine interaction interface;

The work card replacement module is used for taking the in-use maintenance work card which completes the maintenance procedure updating action as a new in-use maintenance work card which is edited based on the original factory manual updating file, replacing the in-use maintenance work card in the maintenance work card database, and storing the original factory manual updating file into the original factory manual file library;

the process updating module is further configured to, when another in-use repair work card corresponding to the target model is also found in the repair work card database according to the target model and the repair process corresponding to the repair new process is present in the other in-use repair work card, update the repair process corresponding to the repair new process in the in-use repair work card to the repair new process after updating the repair process corresponding to the repair new process in the in-use repair work card, and update the repair process corresponding to the repair new process in the other in-use repair work card to the repair new process.

9. An XML-based visual card data processing system, comprising a memory, a processor and a transceiver which are connected in turn in communication, wherein the memory is used for storing a computer program, the transceiver is used for receiving and transmitting messages, and the processor is used for reading the computer program and executing the visual card data processing method according to any one of claims 1 to 7.