CN110347976B - Method, system, apparatus and storage medium for fast exporting device data model - Google Patents

Abstract

The application discloses a method, a system, a device and a storage medium for quickly exporting a device data model, wherein the method comprises the following steps: s1, acquiring input selection information, and acquiring export standards and a first folder needing to export a device data model according to the selection information; s2, detecting the first folder sequentially according to the derived standard, and if the first folder is detected to meet the standard, continuing to execute the step S3; otherwise, prompting the failure of detection, and returning to the execution step S1; s3, exporting the equipment data model by combining the export standard and the first folder, judging whether the export is successful, and prompting export success information if the export is successful; otherwise, the failure information is prompted. The application detects the equipment data to be exported, reduces errors generated in the process of exporting by manpower, improves the efficiency and quality of exporting the equipment data model, and can be widely applied to the fields of mechanical design and computers.

Description

Method, system, apparatus and storage medium for fast exporting device data model

Technical Field

The present application relates to the field of mechanical design and the field of computers, and in particular, to a method, a system, an apparatus, and a storage medium for rapidly deriving a device data model.

Background

Currently, three-dimensional design software CATIA under the Daxoflag is becoming mainstream three-dimensional design software in the fields of automobile equipment, aircraft manufacturing, traditional machinery and the like, and along with the expansion of market demands, the data volume of the design of the CATIA by designers is increasingly increased. Generally, after a set of equipment is designed, in order to completely deliver all data files in the equipment to a customer for acceptance, all data models of the whole set of equipment are sorted and exported to a new folder, and then the new folder is packaged and sent to the customer.

When CATIA is applied to sort and export all data files of a device to a new folder, a common practice of a designer is to first establish a folder for storing all data model files at a specific location, then in CATIA, open the data files of the device to be exported, and export all data files to the previously established folder through the transmission from CATIA to a command.

The method for exporting the data file of the whole equipment has a plurality of defects, wherein the conditions for successfully using the data file sent to the command are harsh, such as file unsaved, file link-down, existence of the same-name unprocessed file and other unknown factors, all cause the data file sent to the command to be unavailable, and the data file of the equipment cannot be exported, so that the exporting is unsuccessful. When the export is unsuccessful, the user is required to find and solve the corresponding problem, greatly affecting the export efficiency.

Disclosure of Invention

In order to solve the technical problems, the application aims to provide a method, a system, a device and a storage medium capable of quickly and conveniently exporting a device data model

The first technical scheme adopted by the application is as follows:

a method of rapidly deriving a device data model, comprising the steps of:

s1, acquiring input selection information, and acquiring export standards and a first folder needing to export a device data model according to the selection information;

s2, detecting the first folder sequentially according to the derived standard, and if the first folder is detected to meet the standard, continuing to execute the step S3; otherwise, prompting the failure of detection, and returning to the execution step S1;

s3, exporting the equipment data model by combining the export standard and the first folder, judging whether the export is successful, and prompting export success information if the export is successful; otherwise, the failure information is prompted.

Further, the step S2 specifically includes the following steps:

s21, sequentially acquiring and judging whether the path of the first folder meets the export standard, prompting incorrect information of the path when judging that the path does not meet the export standard, and returning to the step S1;

s22, sequentially acquiring the equipment numbers from the first folder, judging whether the equipment numbers accord with a preset format, and if so, continuing to execute the step S3; otherwise, the number format of the prompting device does not accord with the standard, and the step S1 is executed in a return mode.

Further, in the step S3, the step of deriving the device data model by combining the export standard and the first folder specifically includes:

and (3) a secondary development interface based on CATIA software, and a device data model is exported according to a hierarchy by combining export standards with the first folder.

Further, the step S3 specifically includes the following steps:

creating a second folder according to the hierarchy under the specified path according to the export standard;

creating a device data model file based on a secondary development interface of CATIA software by combining the export standard and the first folder, and storing the device data model file into a corresponding second folder;

judging whether the second folder and the equipment data model file are successfully created, if so, prompting to export success information; otherwise, the failure information is prompted.

The second technical scheme adopted by the application is as follows:

a system for rapidly deriving a device data model, comprising:

the data input module is used for acquiring the input selection information, and acquiring a export standard and a first folder needing to export the equipment data model according to the selection information;

the detection module is used for sequentially detecting the first folder according to the export standard, and if the first folder is detected to meet the standard, the first folder is transferred to the export module; otherwise, prompting that the detection fails, and switching back to the data input module;

the export module is used for exporting the equipment data model by combining the export standard and the first folder, judging whether the export is successful, and prompting export success information if the export is successful; otherwise, the failure information is prompted.

Further, the detection module comprises a path detection unit and a format detection unit;

the path detection unit is used for sequentially acquiring and judging whether the path of the first folder meets the export standard or not, prompting incorrect information of the path when judging that the path does not meet the export standard, and converting the incorrect information into the data input module;

the format detection unit is used for sequentially acquiring the equipment numbers from the first folder, judging whether the equipment numbers accord with a preset format or not, and if so, transferring to the export module; otherwise, the number format of the prompting device does not accord with the standard, and the prompting device is converted back to the data input module.

Further, the step of combining the export standard and the first folder to export the device data model specifically includes:

and (3) a secondary development interface based on CATIA software, and a device data model is exported according to a hierarchy by combining export standards with the first folder.

Further, the export module comprises a folder creation unit, a file creation unit and a judgment unit;

the folder creation unit is used for creating a second folder according to the export standard under a specified path and according to the hierarchy;

the file creation unit is used for creating a device data model file based on a secondary development interface of CATIA software by combining the export standard and the first folder, and storing the device data model file into a corresponding second folder;

the judging unit is used for judging whether the second folder and the equipment data model file are successfully created or not, if yes, prompting to export success information; otherwise, the failure information is prompted.

The third technical scheme adopted by the application is as follows:

an automatic generation device of computer code, the memory for storing at least one program, the processor for loading the at least one program to perform the method described above.

The fourth technical scheme adopted by the application is as follows:

a storage medium having stored therein processor executable instructions which when executed by a processor are for performing the method as described above.

The beneficial effects of the application are as follows: the application detects the equipment data to be exported, thereby reducing errors generated in the process of exporting by people; in addition, the report function is added, errors and lead-out failure reasons in the lead-out process are fed back, the artificial debug difficulty is reduced, the debug time is shortened, and the lead-out efficiency and quality of the equipment data model are improved.

Drawings

FIG. 1 is a flow chart of the steps of the method of the present application for rapidly exporting a device data model;

FIG. 2 is a block diagram of a system for quickly exporting a device data model in accordance with the present application.

Detailed Description

Example 1

As shown in fig. 1, the present embodiment provides a method for quickly deriving a device data model, including the following methods:

a1, acquiring input selection information, and acquiring export standards and a first folder needing to export a device data model according to the selection information. The derived criteria include detection rules and derived rules.

A2, detecting the first folder sequentially according to the derived standard, and if the first folder is detected to meet the standard, continuing to execute the step A3; otherwise, the failure detection is prompted, and the step A1 is executed in a return mode.

A3, exporting the equipment data model by combining the export standard and the first folder, judging whether the export is successful, and prompting export success information if the export is successful; otherwise, the failure information is prompted.

In the prior art, when a device data model needs to be exported, the export is mainly performed by using CATIA to export the wide-steam honda 1801 project shielded arc welding and tightening fixture device data model as an example, and the conventional export steps of a designer are as follows:

(1) Under the Guangdong 1801 project folder, a folder named "182XQ-2WK-WE3-D104 (hairmask arc welding & tightening jig)" is established.

(2) The CATIA is opened, and then the "182XQ-2WK-WE3-D104. CATProducte" file is opened.

(3) The menu bar of CATIA is found as "file" menu bar, and the menu buttons of "send to", "directory" are clicked in turn, and pop up and send to dialog box.

(4) In the send to dialog box, transfer all files from the "copy possible" dialog box to the "copy to" dialog box by clicking the "copy all files" button.

(5) Clicking a "browse" button selects a previously established folder named "182XQ-2WK-WE3-D104 (shielded arc welding & tightening fixture)", clicking a determination, waiting for the transmission to be completed.

The method for exporting the data file of the whole equipment has a plurality of defects, firstly, the conditions for successfully using the data file sent to the command are harsh, such as that the file is not saved, the file is linked off, the file with the same name is unprocessed, and other unknown factors, all the data file sent to the command is unavailable, and the data file of the equipment cannot be exported. In addition, all data files sent to command derivation are in the same hierarchy folder, and thousands of data files can be obtained when the number of the data files is large, so that great difficulty is brought to checking and modifying data, for example, manual hierarchy establishment of the folder is manually carried out to sort and sort the files, and the data files are required to be re-linked, so that great labor and time cost are brought.

In this embodiment, by adding the export standard and the detection function, the user may select different export standards according to the requirement, so as to make the structure of the exports of all people under the same item consistent. The device data to be exported is detected through the detection function, so that errors generated in the process of exporting by people are reduced; and the limitation of the use condition of the export function is removed, and the use difficulty and the time consumed by the whole export process are reduced. In addition, the report function is added, errors and lead-out failure reasons in the lead-out process are accurately fed back, the artificial debug difficulty is reduced, the debug time is shortened, and the lead-out efficiency and quality of the equipment data model are greatly improved.

Wherein, the step A2 specifically comprises the following steps:

a21, sequentially acquiring and judging whether the path of the first folder meets the export standard, prompting incorrect information of the path when judging that the path does not meet the export standard, and returning to the step A1;

a22, sequentially acquiring the equipment numbers from the first folder, judging whether the equipment numbers accord with a preset format, and if so, continuing to execute the step A3; otherwise, the number format of the prompting device does not accord with the standard, and the step A1 is executed in a return mode.

The selected information includes path information. Different customer standards have different inspection rules, in this embodiment, taking the steam broadcasting standard as an example, firstly, a user selection path is transmitted into an inspection function, whether the path is legal or not is judged, if not, a prompt message of 'the user selection path is illegal, please reselect' is generated, and a character string information feedback report table module is used; then judging whether the path folder exists, if so, generating prompt information' the export device folder exists under the selected path! "feedback report, then judge whether the equipment number obtained from CATIA accords with the form of" -00 "end, if not, then generate prompt message" the current exporting equipment does not accord with the selected standard-! "feedback report. If one rule in the checking rules does not pass, the equipment is considered to pass the checking of the checking module, and the character string information fed back to the report module in the checking module is popped up and fed back to the user in a message form or other forms, so that the user is guided to modify the corresponding input information.

According to the guiding-out standard, the detection is carried out rapidly without adopting an artificial detection mode, so that the detection efficiency is greatly improved, errors caused by artificial detection can be avoided, and the detection quality is improved. The user can quickly process the corresponding prompt information according to the prompt information, so that the efficiency of the user in processing data export is improved.

In the step A3, the step of exporting the device data model by combining the export standard and the first folder specifically includes:

and (3) a secondary development interface based on CATIA software, and a device data model is exported according to a hierarchy by combining export standards with the first folder.

Wherein, the step A3 specifically comprises the following steps:

creating a second folder according to the hierarchy under the specified path according to the export standard;

creating a device data model file based on a secondary development interface of CATIA software by combining the export standard and the first folder, and storing the device data model file into a corresponding second folder;

judging whether the second folder and the equipment data model file are successfully created, if so, prompting to export success information; otherwise, the failure information is prompted.

In this embodiment, the device data model is derived mainly based on the secondary development interface of CATIA software and the file and folder operation interface provided by microsoft, and the device data model is derived hierarchically according to the criteria selected by the user. Because all the data files sent to the command export are in the same hierarchy folder, thousands of data files can be obtained when the number of the data files is large, which brings great difficulty to checking and modifying data, for example, manual establishment of the hierarchy of the folder is required to sort and sort the files, and the data files are required to be re-linked, which brings great labor and time cost, so the embodiment proposes a scheme for exporting the data model of the device according to the hierarchy.

The method comprises the steps of obtaining corresponding export rules from export standards, taking a wide-steam standard as an example, firstly generating 4 folders named as 'equipment name-Open', 'GB', 'PUR', 'STD', then sequentially establishing a plurality of folders of a unit level under an equipment level, and storing corresponding data model files into the corresponding established folders through a cata secondary development interface, so as to export the equipment data model. It should be noted that: for other standards, the point of change may be that the naming convention of the 4 folders established first will be different, or that the mapping convention of the data model to the corresponding folders will be different, and some standards do not export all data models, but export the specified data model according to the standard specification.

The embodiment can be realized by the following technical scheme:

(1) Establishing a standard storage module: a data storage carrier is selected (which may be, but is not limited to, oracle, mySQL, xml) for storing different customer criteria for validating the current data model and guiding the classification of the final exported data file, and the names of the folders used for the classification.

(2) Establishing a standard checking module: and dividing an independent verification module in the program for checking whether the current equipment data model accords with the standard or not, and if not, sending the reason information which does not accord to the report module for display.

(3) And (3) establishing a report module: separate report modules are divided in the program, an acceptance container (which can be but is not limited to String strings, list < String > linked lists and the like) is established and used for accepting prompt information generated by standard inconsistencies, error information of a export process, information of export success and the like, and the prompt information is immediately fed back to a user interface for display (the feedback form can be but is not limited to popup forms, excel forms are generated, txt files are generated and the like).

(4) And (3) establishing a generation export module: and using a cata secondary development interface and a file and folder operation interface provided by Microsoft, and sequentially exporting files and establishing folders according to the standard in the standard storage module.

(5) And establishing an interface module: an interface design tool (Winform, WPF, MFC may be used but is not limited to) is selected, and a control is designed on the interface, so that a user can select a folder to which the data equipment model needs to be exported, select a client standard to be exported, confirm to start exporting, and cancel exporting.

Compared with the traditional mode, the method provided by the embodiment has at least the following beneficial effects:

1) The standard checking capability is increased, and errors caused by human in the export process are reduced.

2) The limitation of the use condition of the export function is removed, and the use difficulty and the time consumed by the whole export process are reduced.

3) The selection of the export standard is added, so that users can export different standard data file structures for different projects, and the exported structures of all people under the same project are consistent.

4) The standard structure level of the exported data file is increased, so that the exported data file is clearer, the inspection is convenient, and the time consumption of manual inspection is reduced.

5) The report function is added, errors in the export process and reasons of export failure are accurately fed back, the artificial debugging difficulty is reduced, and the debugging time is shortened.

Example two

As shown in fig. 2, the present embodiment provides a system for quickly exporting a device data model, including:

the data input module is used for acquiring the input selection information, and acquiring a export standard and a first folder needing to export the equipment data model according to the selection information;

the detection module is used for sequentially detecting the first folder according to the export standard, and if the first folder is detected to meet the standard, the first folder is transferred to the export module; otherwise, prompting that the detection fails, and switching back to the data input module;

the export module is used for exporting the equipment data model by combining the export standard and the first folder, judging whether the export is successful, and prompting export success information if the export is successful; otherwise, the failure information is prompted.

Further as a preferred embodiment, the detection module includes a path detection unit and a format detection unit;

the path detection unit is used for sequentially acquiring and judging whether the path of the first folder meets the export standard or not, prompting incorrect information of the path when judging that the path does not meet the export standard, and converting the incorrect information into the data input module;

the format detection unit is used for sequentially acquiring the equipment numbers from the first folder, judging whether the equipment numbers accord with a preset format or not, and if so, transferring to the export module; otherwise, the number format of the prompting device does not accord with the standard, and the prompting device is converted back to the data input module.

Further as a preferred embodiment, the step of deriving the device data model by combining the derivation criteria and the first folder specifically includes:

and (3) a secondary development interface based on CATIA software, and a device data model is exported according to a hierarchy by combining export standards with the first folder.

Further as a preferred embodiment, the export module includes a folder creation unit, a file creation unit, and a judgment unit;

the folder creation unit is used for creating a second folder according to the export standard under a specified path and according to the hierarchy;

the file creation unit is used for creating a device data model file based on a secondary development interface of CATIA software by combining the export standard and the first folder, and storing the device data model file into a corresponding second folder;

the judging unit is used for judging whether the second folder and the equipment data model file are successfully created or not, if yes, prompting to export success information; otherwise, the failure information is prompted.

The system for quickly exporting the equipment data model of the embodiment can execute the method for quickly exporting the equipment data model provided by the first embodiment of the method of the application, can execute any combination implementation steps of the method embodiment, and has the corresponding functions and beneficial effects of the method.

Example III

An apparatus for automatically generating computer code, the memory for storing at least one program, the processor for loading the at least one program to perform the method of embodiment one.

The computer code automatic generation device of the embodiment can execute the method for rapidly exporting the equipment data model provided by the first embodiment of the method of the application, can execute any combination implementation steps of the method embodiment, and has the corresponding functions and beneficial effects of the method.

Example IV

A storage medium having stored therein processor-executable instructions which, when executed by a processor, are adapted to carry out the method of embodiment one.

The storage medium of the embodiment can execute the method for quickly exporting the equipment data model provided by the first embodiment of the method of the application, and can execute the steps of any combination of the embodiments of the method, thereby having the corresponding functions and beneficial effects of the method.

While the preferred embodiment of the present application has been described in detail, the present application is not limited to the embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present application, and the equivalent modifications or substitutions are included in the scope of the present application as defined in the appended claims.

Claims (6)

1. A method for quickly exporting a device data model, applied to CATIA software, comprising the following steps:

s1, acquiring input selection information, and acquiring export standards and a first folder needing to export a device data model according to the selection information;

s2, detecting the first folder sequentially according to the derived standard, and if the first folder is detected to meet the standard, continuing to execute the step S3; otherwise, feeding back the report table module in a character string information mode, prompting the detection failure reason, and returning to the execution step S1;

s3, exporting the equipment data model by combining the export standard and the first folder, judging whether the export is successful,

if the export is successful, prompting export success information; otherwise, prompting failure information;

in the step S3, the step of exporting the device data model by combining the export standard and the first folder specifically includes:

a secondary development interface based on CATIA software is combined with the export standard and the first folder to export the equipment data model according to the hierarchy;

the step S3 specifically comprises the following steps:

creating a second folder according to the hierarchy under the specified path according to the export standard;

creating a device data model file based on a secondary development interface of CATIA software by combining the export standard and the first folder, and storing the device data model file into a corresponding second folder;

judging whether the second folder and the equipment data model file are successfully created, if so, prompting to export success information; otherwise, the failure information is prompted.

2. The method for quickly deriving a device data model according to claim 1, wherein the step S2 specifically comprises the following steps:

s21, sequentially acquiring and judging whether the path of the first folder meets the export standard, prompting incorrect information of the path when judging that the path does not meet the export standard, and returning to the step S1;

s22, sequentially acquiring the equipment numbers from the first folder, judging whether the equipment numbers accord with a preset format, and if so, continuing to execute the step S3; otherwise, the number format of the prompting device does not accord with the standard, and the step S1 is executed in a return mode.

3. A system for rapidly exporting a data model of a device for use in CATIA software, comprising:

the data input module is used for acquiring the input selection information, and acquiring a export standard and a first folder needing to export the equipment data model according to the selection information;

the detection module is used for sequentially detecting the first folder according to the export standard, and if the first folder is detected to meet the standard, the first folder is transferred to the export module; otherwise, the report table module is fed back in a character string information mode, the detection failure reason is prompted, and the data is converted back to the data input module;

the export module is used for exporting the equipment data model by combining the export standard and the first folder, judging whether the export is successful, and prompting export success information if the export is successful; otherwise, prompting failure information;

the step of combining the export standard and the first folder to export the device data model specifically comprises the following steps:

a secondary development interface based on CATIA software is combined with the export standard and the first folder to export the equipment data model according to the hierarchy;

the export module comprises a folder creation unit, a file creation unit and a judgment unit;

the folder creation unit is used for creating a second folder according to the export standard under a specified path and according to the hierarchy;

the file creation unit is used for creating a device data model file based on a secondary development interface of CATIA software by combining the export standard and the first folder, and storing the device data model file into a corresponding second folder;

the judging unit is used for judging whether the second folder and the equipment data model file are successfully created or not, if yes, prompting to export success information; otherwise, the failure information is prompted.

4. A system for rapidly deriving a device data model according to claim 3, wherein the detection module comprises a path detection unit and a format detection unit;

the path detection unit is used for sequentially acquiring and judging whether the path of the first folder meets the export standard or not, prompting incorrect information of the path when judging that the path does not meet the export standard, and converting the incorrect information into the data input module;

the format detection unit is used for sequentially acquiring the equipment numbers from the first folder, judging whether the equipment numbers accord with a preset format or not, and if so, transferring to the export module; otherwise, the number format of the prompting device does not accord with the standard, and the prompting device is converted back to the data input module.

5. An automatic computer code generating device comprising a memory for storing at least one program and a processor for loading the at least one program to perform the method of any of claims 1-2.

6. A storage medium having stored therein processor executable instructions which, when executed by a processor, are for performing the method of any of claims 1-2.