CN110889582A - Method for realizing PBOM visualization based on Teamcenter - Google Patents

Abstract

The invention discloses a method for realizing PBOM visualization based on a Teamcenter, which comprises the following steps: logging in a Teamcenter system; verifying at least one or more subgroups of selected PBOMs or whole PBOMs; acquiring a CADBOM associated with the PBOM; verifying the existence of the Align task folder; initiating an Alignment task; the server receives tasks and performs Alignment by taking each task as a unit; opening PBOM and CADBOM in MPP, and executing each subgroup one by one; finding a CADBOM subgroup with the same id as that in the PBOM, and traversing the subgroup; carrying out Alignment on the purchasing entity under the subgroup; creating Alignment, outputting a Part list of Alignment, and realizing the association of CADBOM and PBOM; according to the method, the part component id and the version number under the CADBOM and PBOM nodes in the TeamCenter system are read, a part component data set is traversed, corresponding part components are associated, and the visual requirement of the PBOM is met; the method has the advantages that an engineer can look up the design drawing of the product when inquiring the PBOM, the operation of the engineer is facilitated, the time for repeatedly inquiring the design drawing is greatly saved, the operation is simple, and the human-computer interaction is conveniently carried out.

Description

Method for realizing PBOM visualization based on Teamcenter

Technical Field

The invention belongs to the technical field of PLM (product lifecycle management) and product data visualization, and relates to a method for realizing PBOM visualization based on a TeamCenter.

Background

The process is a bridge for connecting design and manufacture, the process management is the management of organization and processing process of process related information, and is the most active factor in the manufacturing process, and the level of the process management determines the cost and the quality of products.

With the rapid development of the information age, the management of product design and process design tends to be more and more complex in the parallelization and electronization processes of the manufacturing industry. To accommodate this complex and intricate process, various auxiliary systems are continuously emerging. The application of information systems in manufacturing industry is deepened continuously, and powerful platform support is provided for realizing rapid marketing and high-quality production of products.

The tcm (terminal management) data management system is used as a product data management system and is responsible for managing product design data and the generation processes of the data, such as design process management, product structure management, approval management and the like. In order to achieve consistency between the process and the Design data, an end-to-end process from the Design to the process needs to be opened, and thus, an integrated application Of Computer Aided Design (cadgo) Of Material (Material) and process Bill Of Material (process Bill Of Material) in the TCM needs to be achieved. According to the invention, based on the Teamcenter, the CADBOM and the PBOM can be automatically associated in the background by only manually triggering once by an engineer in the development process, so that the visualization requirement of the PBOM is realized.

Disclosure of Invention

The invention aims to solve the technical problem of providing a method for realizing the visualization requirement of the PBOM based on the Teamcenter, providing corresponding software functions for realizing the CADBOM and PBOM association visualization and establishing a CADBOM and PBOM association method.

A method for realizing PBOM visualization based on a Teamcenter comprises the following steps:

step 1: logging in a Teamcenter system;

step 2: verifying at least one or more subgroups of selected PBOMs or whole PBOMs;

and step 3: acquiring a CADBOM associated with the PBOM;

and 4, step 4: verifying the existence of the Align task folder;

and 5: initiating an Alignment task;

step 6: the server receives tasks and performs Alignment by taking each task as a unit;

and 7: opening PBOM and CADBOM in MPP, and executing each subgroup one by one;

and 8: finding a CADBOM subgroup with the same id as that in the PBOM, and traversing the subgroup;

and step 9: carrying out Alignment on the purchasing entity under the subgroup;

step 10: creating Alignment, outputting a Part list of Alignment, and realizing the association of CADBOM and PBOM.

The method comprises the following steps of logging in a Teamcenter system in the technical scheme:

1.1 initializing program log files;

1.2 the program automatically calls a configuration file tcm.

1.3 login user name and password authentication logic: reading TCM _ TC _ URL, TCM _ TC _ USER and TCM _ TC _ PASSSWORD information in the configuration file, logging in a TCM system, if logging fails, recording an error in a log file and a global error variable, and terminating the program;

1.4 all correct and critical steps in the program processing process are recorded in the log, and all abnormal information is recorded in the log.

In the technical scheme, the verification at least selects one or more sub-groups or whole PBOM in the PBOM, and comprises the following steps:

2.1 reading a folder object according to the option value, acquiring all txt files under the folder, and processing one by one;

2.2 reading the content in the txt text file;

and 2.3pbom is item _ id, desigbom is item _ id, userid is TC user id for initiating Align request, and if there is a group which is item _ id, item _ id and item _ id, the item _ id corresponding to the group is read.

In the technical scheme, the acquiring of the CADBOM associated with the PBOM comprises the following steps:

3.1 inquiring an object with the type of H7_ CADRoot in the system according to item _ id of the design bom in the parameters to obtain the latest version;

3.2 according to item _ id of pbom in the parameter, inquiring the object with type H7_ PBOMroot in the system, and obtaining the latest version.

The method for verifying the existence of the Align task folder in the technical scheme comprises the following steps:

4.1 read preference HQ _ CADBOM _ ALIGN _ REVRULE defined version rules, if preference is not defined, then adopt "the state of release ready";

4.2 read the version rule defined by HQ _ PBOM _ ALIGN _ REVRULE, if the preference is not defined, adopt "last Working".

In the technical scheme, PBOM and CADBOM are opened in the MPP, and each subgroup is executed one by one, and the MPP control method comprises the following steps:

7.1 loading CADBOM and PBOM under MPP, and setting BOM validity as the current day;

7.2 if the group is not contained in the receiving parameters, performing Align operation on the whole vehicle;

7.3 if group is contained, representing the Align operation to the object sub-level of the specified item _ id in the PBOM structure;

7.4 if the whole vehicle Align is adopted, the program traverses the PBOM structure to obtain the sub-objects in the first level under the PBOM, and when H7_ Function exists, the program directly performs Align on the first level under H7_ Function, and traverses one by one; if the sub-group Align is adopted, the program sequentially traverses the sub-groups with the item _ id in the group parameter being the same as the item _ id in the PBOM structure.

In the technical scheme, a CADBOM subgroup with the same id as that in a PBOM is found, and the subgroups are traversed, wherein the traversing process of one subgroup is as follows:

8.1 obtaining PBOM subgroup object item _ id, and the first level of loading its sub-components at one time is total Part; if the virtual part is the virtual part, repeatedly executing a subgroup of Align processes;

8.2 finding the object with the same item _ id under CADBOM, and loading the first level of the sub-component of the object at one time;

8.3 for the assemblies of type h7_ Part/h7_ Stdpart in PBOM, finding the matched design piece under the same subgroup level of CADBOM, and reading the attributes of the piece.

In the technical scheme, the purchasing entity under the subgroup is subjected to Alignment, and three conditions can occur to the purchasing entity in the subgroup:

A. processing from unalignment part, judging whether the Design Assignment State is 0, if yes, executing the next step, if not, ending the program.

B. Processing the Part of other subgroups or BOMs with Alignment, judging whether the Part State is 1 or 2, and IDIC is empty, if so, executing the next step, otherwise, ending the program.

C. Processing the Part which is subjected to Alignment and needs to be updated, judging whether the Part conforms to Design assignment state of 1 or 2, and judging whether the IDIC is not null, if so, executing the next step, and if not, ending the program.

The invention has the beneficial technical effects that:

according to the invention, the component data set is traversed by reading the component id and the version number under the CADBOM and PBOM nodes in the TeamCenter system, and the corresponding components are associated, so that the visual requirement of the PBOM is realized. The method and the device have the advantages that an engineer can look up the design drawing of the product when inquiring the PBOM, the operation of the engineer is facilitated, and the time for repeatedly inquiring the design drawing is efficiently saved.

According to the invention, only after an engineer logs in the TeamCenter system, manual triggering is needed, the background can automatically realize the association of the CADBOM and the PBOM, the operation is simple, and the human-computer interaction is convenient.

The process data is used as data in the development process, and completely breaks away from the dependence on design tools (such as CAPP, AutoCAD and the like) in the management process after entering a TCM system. Therefore, a large number of licenses generated in data management by a large number of design tools can be saved, and software purchasing cost is directly saved.

Drawings

FIG. 1 is a flow chart of an algorithm for implementing PBOM visualization in accordance with the present invention.

Detailed Description

The method realizes the visualization requirement of the PBOM by utilizing the program which is developed by using JAVA language based on the TeamCenter and associating the CADBOM and the PBOM in the TeamCenter, so that an engineer can conveniently look up the design drawing without switching various software for inquiry, the accuracy of the look-up is ensured, the cost for purchasing various software licenses is saved, and the working efficiency of the engineer is greatly improved.

The specific embodiment of the invention is as follows:

1. logging in a Teamcenter system;

1.1 initializing program log files;

1.2 the program automatically calls a configuration file tcm.

1.3 login user name and password authentication logic: reading TCM _ TC _ URL, TCM _ TC _ USER and TCM _ TC _ PASSSWORD information in the configuration file, logging in a TCM (Teamcenter managing, Teamcenter data management) system, if logging fails, recording an error to a log file and recording the error to a global error variable, and terminating the program;

1.4 recording all correct and critical steps in the program processing process into a log, and recording all abnormal information into the log;

2. verifying at least one or more subgroups of selected PBOMs or whole PBOMs;

2.1 reading a folder object according to the option value, acquiring all txt files under the folder, and processing one by one;

2.2 reading the content in the txt text file;

2.3pbom is item _ id, desigbom is item _ id, userid is TC user id initiating Align request, and if there is a group which is item _ id, item _ id, and item _ id, the item _ id corresponding to the group is read;

3. acquiring a CADBOM associated with the PBOM;

3.1 inquiring an object with the type of H7_ CADRoot in the system according to item _ id of the design bom in the parameters to obtain the latest version;

3.2 according to item _ id of pbom in the parameter, inquiring the object with the type of H7_ PBOMroot in the system, and obtaining the latest version;

4. verifying the existence of the Align task folder;

4.1 read preference HQ _ CADBOM _ ALIGN _ REVRULE defined version rules, if preference is not defined, then adopt "the state of release ready";

4.2 read the version rule defined by HQ _ PBOM _ ALIGN _ REVRULE, if the preference is not defined, adopt "last Working";

5. initiating an Alignment task;

6. the server receives tasks and performs Alignment by taking each task as a unit;

7. opening PBOM and CADBOM in MPP, and executing each subgroup one by one;

7.1 loading the CADBOM and the PBOM under the MPP according to the requirements of the following table, and setting the BOM validity as the current day;

MPP turn on	Precision/non-precision	Revision rule
			CADBOM	Not exactly	Latest release (state of release ready to give birth)
PBOM	Not exactly	In the Latest work (last Working)

7.2 if the group is not contained in the receiving parameters, performing Align operation on the whole vehicle;

7.3 if group is contained, representing the Align operation to the object sub-level of the specified item _ id in the PBOM structure;

7.4 if the whole vehicle Align is adopted, the program traverses the PBOM structure, obtains the sub-objects in the first level under the PBOM (when H7_ Function exists, directly performs Align on the first layer under H7_ Function), and traverses one by one; if the sub-group Align is adopted, the program sequentially traverses sub-groups with the same item _ id in the PBOM structure in the item _ id in the group parameter;

8. finding a CADBOM subgroup with the same id as that in the PBOM, and traversing the subgroup;

the traversal procedure for a subset is as follows:

8.1 obtaining PBOM subgroup object item _ id, and the first level of loading its sub-components at one time is total Part; if the virtual part is the virtual part, repeatedly executing a subgroup of Align processes;

8.2 finding the object with the same item _ id under CADBOM, and loading the first level of the sub-component of the object at one time;

8.3 for the collecting Part with the type h7_ Part/h7_ Stdpart in the PBOM, finding the matched design Part under the same subgroup level of the CADBOM, and reading the attribute of the Part;

9. carrying out Alignment on the purchasing entity under the subgroup;

three cases may occur for the procurement entity in the subgroup, as shown in cases A, B, and C below:

A. processing from unalignment part, judging whether the Design Assignment State is 0, if yes, executing the next step, if not, ending the program.

B. Processing the Part of other subgroups or BOMs with Alignment, judging whether the Part State is 1 or 2, and IDIC is empty, if so, executing the next step, otherwise, ending the program.

C. Processing the Part which is subjected to Alignment and needs to be updated, judging whether the Part conforms to Design assignment state of 1 or 2, and judging whether the IDIC is not null, if so, executing the next step, and if not, ending the program.

10. Creating Alignment, outputting a Part list of Alignment, and realizing the association of CADBOM and PBOM.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (8)

1. A method for realizing PBOM visualization based on a Teamcenter is characterized by comprising the following steps:

step 1: logging in a Teamcenter system;

step 2: verifying at least one or more subgroups of selected PBOMs or whole PBOMs;

and step 3: acquiring a CADBOM associated with the PBOM;

and 4, step 4: verifying the existence of the Align task folder;

and 5: initiating an Alignment task;

step 6: the server receives tasks and performs Alignment by taking each task as a unit;

and 7: opening PBOM and CADBOM in MPP, and executing each subgroup one by one;

and 8: finding a CADBOM subgroup with the same id as that in the PBOM, and traversing the subgroup;

and step 9: carrying out Alignment on the purchasing entity under the subgroup;

step 10: creating Alignment, outputting a Part list of Alignment, and realizing the association of CADBOM and PBOM.

2. The TeamCenter-based PBOM visualization method as claimed in claim 1, wherein:

the terminal logs in a Teamcenter system to carry out the following operations:

1.1 initializing program log files;

1.2 the program automatically calls a configuration file tcm.

1.3 login user name and password authentication logic: reading TCM _ TC _ URL, TCM _ TC _ USER and TCM _ TC _ PASSSWORD information in the configuration file, logging in a TCM system, if logging fails, recording an error in a log file and a global error variable, and terminating the program;

1.4 all correct and critical steps in the program processing process are recorded in the log, and all abnormal information is recorded in the log.

3. The TeamCenter-based PBOM visualization method as claimed in claim 1, wherein:

the verification at least selects one or more subgroups of PBOMs or a whole PBOM, and comprises the following steps:

2.1 reading a folder object according to the option value, acquiring all txt files under the folder, and processing one by one;

2.2 reading the content in the txt text file;

and 2.3pbom is item _ id, desigbom is item _ id, userid is TC user id for initiating Align request, and if there is a group which is item _ id, item _ id and item _ id, the item _ id corresponding to the group is read.

4. The TeamCenter-based PBOM visualization method as claimed in claim 1, wherein:

the method for acquiring the CADBOM associated with the PBOM comprises the following steps:

3.1 inquiring an object with the type of H7_ CADRoot in the system according to item _ id of the design bom in the parameters to obtain the latest version;

3.2 according to item _ id of pbom in the parameter, inquiring the object with type H7_ PBOMroot in the system, and obtaining the latest version.

5. The TeamCenter-based PBOM visualization method as claimed in claim 1, wherein:

the method for verifying the existence of the Align task folder comprises the following steps:

4.1 read preference HQ _ CADBOM _ ALIGN _ REVRULE defined version rules, if preference is not defined, then adopt "the state of release ready";

4.2 read the version rule defined by HQ _ PBOM _ ALIGN _ REVRULE, if the preference is not defined, adopt "last Working".

6. The TeamCenter-based PBOM visualization method as claimed in claim 1, wherein:

opening PBOM and CADBOM in the MPP, executing each subgroup one by one, and comprising the following steps:

7.1 loading CADBOM and PBOM under MPP, and setting BOM validity as the current day;

7.2 if the group is not contained in the receiving parameters, performing Align operation on the whole vehicle;

7.3 if group is contained, representing the Align operation to the object sub-level of the specified item _ id in the PBOM structure;

7.4 if the whole vehicle Align is adopted, the program traverses the PBOM structure to obtain the sub-objects in the first level under the PBOM, and when H7_ Function exists, the program directly performs Align on the first level under H7_ Function, and traverses one by one; if the sub-group Align is adopted, the program sequentially traverses the sub-groups with the item _ id in the group parameter being the same as the item _ id in the PBOM structure.

7. The TeamCenter-based PBOM visualization method as claimed in claim 1, wherein:

finding the CADBOM subgroup with the same id as that in the PBOM, and traversing the subgroups, wherein the traversing process of one subgroup is as follows:

8.1 obtaining PBOM subgroup object item _ id, and the first level of loading its sub-components at one time is total Part; if the virtual part is the virtual part, repeatedly executing a subgroup of Align processes;

8.2 finding the object with the same item _ id under CADBOM, and loading the first level of the sub-component of the object at one time;

8.3 for the assemblies of type h7_ Part/h7_ Stdpart in PBOM, finding the matched design piece under the same subgroup level of CADBOM, and reading the attributes of the piece.

8. The TeamCenter-based PBOM visualization method as claimed in claim 1, wherein:

the implementation of Alignment on the procurement actual components under the subgroup can cause three situations:

A. processing from unalignment part, judging whether the Design Assignment State is 0, if yes, executing the next step, if not, ending the program.

B. Processing the Part with Alignment in other subgroups or BOMs, judging whether the Part assignment state is 1 or 2, and the IDIC is empty, if so, executing the next step, and if not, ending the program.

C. Processing the Part which is subjected to Alignment and needs to be updated, judging whether the Part conforms to Design assignment state of 1 or 2, and judging whether the IDIC is not null, if so, executing the next step, and if not, ending the program.

Images