CN111985878A - Method and system for realizing modular BOM (Bill of Material) in JDM (java development framework) mode - Google Patents

Abstract

The invention discloses a method and a system for realizing modular BOM in JDM mode, comprising the following steps: step one, a JDM modular BOM is established by a product architecture and is used as a data source of a whole product; uploading the corresponding JDM BOM to a corresponding PLM system so as to select and match data; step three, matching the JDM BOMs to generate package BOMs correspondingly containing the substitute materials; and step four, carrying out secondary matching on the package BOM, and selecting key materials specified by the customer. System through JDM modularization BOM establishes, arranges and realizes to guarantee that modularization BOM is unanimous with plane BOM data source, through the primary match to JDM modularization BOM, realize that the system automatically generates package BOM simultaneously, through carrying out the secondary match to package BOM, the appointed corresponding demand material generates corresponding production BOM, satisfies customer's demand, promotes product competitiveness.

Description

Method and system for realizing modular BOM (Bill of Material) in JDM (java development framework) mode

Technical Field

The invention relates to the technical field of system design, in particular to a method and a system for realizing modular BOM in a JDM mode.

Background

Bill of Material (BOM), which is a computer aided enterprise production management, first of all to enable a computer to read the product composition manufactured by the enterprise and all the related materials, for the convenience of computer identification, the product structure expressed by a diagram must be converted into a data format, and the file describing the product structure in the data format is the Bill of Material, i.e. BOM. It is a technical document defining the structure of a product, and therefore, it is also called a product structure table or a product structure tree. In certain industries, it may be referred to as a "recipe", "list of elements", or other name.

At present, the situation of coexistence of a plane BOM and a modular BOM exists worldwide, but the two BOM architectures are completely different: one is an assembly of various modularized combined materials, the other is the tiling of all solid materials of a product, and in the JDM mode, customers carry out information transmission, delivery and the like by package BOMs, so that how to ensure that data sources of two different BOM modes are synchronized becomes a major pain point which needs to be solved by BOM development engineers; meanwhile, the modular BOM selects product materials from a specification level, and cannot specify specific entity materials, but clients in the JDM mode place orders and supply materials with specific entity materials, and under the development of the current JDM mode, how to specify specific entity materials in the modular BOM specification materials becomes a prominent difficult problem which needs to be solved in front of BOM engineers.

Disclosure of Invention

The invention mainly solves the technical problem of providing a method and a system for realizing modular BOM in JDM mode, which can solve the synchronization of modular BOM and package BOM data source in JDM mode and solve the abnormity that the modular BOM can not specify specific material.

In order to solve the technical problems, the invention adopts a technical scheme that: a method for realizing modular BOM in JDM mode is provided, which comprises:

s100, a bill of material system is established, and the bill of material system establishes a modular bill of material under a product design mode according to a product architecture;

s200, the bill of material system uploads the modular bill of material under the corresponding product design mode to a product life cycle management system;

s300, the bill of material system carries out first matching on the modular bill of material under the product design mode to generate a package bill of material;

and S400, performing secondary matching on the package bill of materials by the bill of materials system to generate a production bill of materials.

Further, in the step S100, the product architecture includes product information and product dimensions.

Further, in the step S100, when the modular bill of materials under the product design mode is created through the product architecture, the method includes the following steps: s101, the bill of material system combs and plans corresponding module levels according to product information, wherein the module levels comprise a customer-specified entity material module, a customer non-specified entity material module and specification level materials, and the customer-specified entity material module, the customer non-specified entity material module and the specification level materials define and create an optional module for the whole product; s102, the bill of material system creates coding rules and naming rules of the modular bill of material under the corresponding product design mode; s103, the bill of material system sorts and defines the restriction and matching relation of the corresponding specification-level module and the module-level module according to the product dimension, limits the product support range and the restriction condition, and brings out the non-designated entity material module with corresponding configuration through the corresponding designated entity material module.

Further, in the step S200, when uploading to the product lifecycle management system, the method includes the following steps: s201, the product life cycle management system develops a load table tool template in a modular bill of materials under a product design mode to realize data layout of the whole modular bill of materials; s202, the product life cycle management system converts the corresponding limit relation in the load table document into a programming language which can be recognized by the bill of material system according to the corresponding load table document in the modular bill of material in the product design mode, and the product life cycle management system realizes and arranges the limit conditions in the material information; and S203, the material information system performs data arrangement and limiting condition butt joint on the modular bill of materials in the product design mode, uploads the modular bill of materials to the product life cycle management system, and performs matching combination.

Further, in the step S300, when the package bill of materials is generated; and the product life cycle management system selects product modules and specifications, and selects material modules and specifications appointed by a customer for the first time to generate a package bill of materials.

Further, the package bill of materials comprises customer-specified entity materials and non-specified entity materials; the designated solid material comprises a substitute material; the non-specified materials comprise materials of other specifications and solid materials brought out by the specified materials and substitute materials; and the bill of material system in the non-specified entity material generates a substitute material according to the stock condition of the material.

Further, the secondary selection of the package bill of materials by the bill of materials system includes the secondary selection of the specified entity materials in the package bill of materials by the bill of materials system, and the production bill of materials is generated.

A system for realizing modular BOM in JDM mode includes: the system comprises a JDM modular BOM creating unit, a PLM uploading system unit, a package BOM generating unit and a production BOM generating unit; the uploading PLM system unit develops a load sheet tool template in a creating unit of the JDM modular BOM, and the package BOM generating unit performs first data matching to generate a package BOM; the package BOM generation unit is responsible for generating a package BOM; and the package BOM generating unit comprises a client specified entity material and a non-specified entity material.

Further, a creating unit of the JDM modular BOM comprises a client specifying module and a client non-specifying module; the client designation module comprises a plurality of client designation module sets, each client designation module set comprises a plurality of specification sets and substitution sets, and each substitution set comprises a plurality of entity materials; the client non-specified module comprises a plurality of client non-specified module sets, each client non-specified module set comprises a plurality of specification sets and substitution sets, and each substitution set comprises a plurality of entity materials.

Further, the production BOM generation unit is responsible for carrying out second selection on the package BOM by the key entity materials appointed by the customers to generate the production BOM; and the BOM generating unit comprises a second time of selecting the key entity materials and the non-specified entity materials specified by the customer.

The invention has the beneficial effects that: the system of the JDM modular BOM is established, arranged and realized, so that the modular BOM is consistent with a plane BOM data source, meanwhile, the package BOM is automatically generated by the system through primary matching of the JDM modular BOM, and meanwhile, corresponding required materials are appointed through secondary matching of the package BOM to generate corresponding production BOMs, so that the client requirements are met, and the product competitiveness is improved.

Drawings

FIG. 1 is a flowchart of a preferred embodiment of a method for implementing modular BOM in JDM mode according to the present invention;

FIG. 2 is a flowchart of JDM modular BOM creation for product architecture in a method for implementing modular BOM in JDM mode according to the present invention;

FIG. 3 is a flow chart of uploading to a PLM system in a method for implementing modular BOM in JDM mode according to the present invention;

FIG. 4 is a diagram of a JDM implementation of a modular BOM architecture of the present invention;

FIG. 5 is a block diagram of a creating unit for implementing JDM modular BOM in the modular BOM system in the JDM mode according to the present invention;

FIG. 6 is a block diagram of a BOM unit for generating packages in a modular BOM system implemented in JDM mode according to the present invention;

FIG. 7 is a block diagram of a module for generating a production BOM unit in a modular BOM system implemented in JDM mode according to the present invention.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the invention easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the invention.

Referring to fig. 1 to 7, an embodiment of the present invention includes:

referring to fig. 1, a method for implementing modular BOM in JDM mode includes:

s100, establishing a BOM system, and establishing a JDM modular BOM as a data source of the whole product by the BOM system through the product architecture, wherein the product architecture is completed by an entrusting party and an ODM manufacturer;

s200, the BOM system uploads the corresponding JDM modular BOM to a PLM system so as to select and match data;

s300, the BOM system carries out first matching on the JDM modular BOM to generate a package BOM;

s400, the BOM system carries out second matching on the package BOM to generate a production BOM.

In the step S100, the consignor and the ODM manufacturer complete the product architecture together, that is, the consignor proposes a requirement, performs product restriction and matching relationship combing, and then the ODM manufacturer completes the architecture of the product, where the product architecture includes product information and product dimensions; when the JDM modular BOM is created through the product architecture, the method comprises the following steps:

s101, the BOM system combs and plans a corresponding module level (EBX) according to product information, wherein the module level (EBX) comprises a client-specified entity material module, a client non-specified entity material module and a specification level (EGX) material, and the client-specified entity material module, the client non-specified entity material module and the specification level (EGX) material define and create an optional module for the whole product.

S102, a coding rule and a naming rule of the corresponding JDM modular BOM are created, and the coding rule and the naming rule are different from the coding rule of the existing universal modular BOM.

S103, the BOM system sorts and defines the limit and matching relation of the corresponding specification level module and the module level module according to the product dimension, limits the product support range and the limit condition, and automatically brings out the non-specified entity material module with the corresponding configuration by the corresponding specified entity material module to prevent the occurrence of the non-supported configuration.

Referring to fig. 3, in the step S200, when uploading to the PLM system, the method includes the following steps:

s201, the PLM system develops a load sheet tool template in the JDM modular BOM, and overall modular BOM data arrangement is achieved.

And S202, the PLM system converts the corresponding restriction relation in the load sheet document into a programming language which can be recognized by the BOM system according to the corresponding load sheet document in the JDM modular BOM, and realizes and arranges the restriction conditions in the BOM.

S203, the BOM system interfaces the JDM modular BOM data arrangement and the limiting conditions and uploads the data to the PLM system so as to carry out matching combination.

Wherein the PLM system represents a product lifecycle management system and comprises the following functions: 1. tools for information creation and analysis (e.g., mechanical CAD, electrical CAD, CAM, CAE, computer aided software engineering CASE, information publishing tools, etc.); 2. core functions (e.g., data warehouse, document and content management, workflow and task management, etc.); 3. application functions (e.g., configuration management, recipe management, compliance); 4. business/industry oriented solutions and advisory services (e.g., automotive and high-tech industries); in the embodiment, the functions mainly used by the PLM system are core functions; the load sheet is a load table; JDM is a product Design mode, meaning common Design and Manufacture, and generally, development and Design of a certain product are completed by a client and an ODM manufacturer.

In the step S300, when the package BOM is generated; the PLM system selects a product module and specification, and selects a material module and specification specified by a customer for one time to generate a package BOM; the package BOM comprises a client specified entity material and a non-specified entity material; the designated solid material comprises a substitute material; the non-specified materials comprise materials with other specifications, solid materials and substitute materials which are automatically brought out by the specified materials; the BOM system in the non-specified entity material automatically generates a substitute material according to the stock condition of the material; the package BOM may be used in the consumer's bid link.

In the step S400, when the package BOM generates a production BOM, the BOM system performs a secondary selection on the designated entity material in the package BOM to generate a production bill of materials. The production BOM is used for customer price checking, ordering, production and delivery.

Wherein the planarization BOM: bill Of Material, BOM is the tiling and the collection Of the entity Material, the order Of the client and the BOM required.

Referring to fig. 4, based on the same inventive concept as the method for implementing the modular BOM in the JDM mode in the foregoing embodiment, an embodiment of the present disclosure further provides a system for implementing the modular BOM in the JDM mode, including: the system comprises a JDM modular BOM creating unit, a PLM uploading system unit, a package BOM generating unit and a production BOM generating unit; the uploading PLM system unit develops a load sheet tool template in a creating unit of the JDM modular BOM, and the package BOM generating unit performs first data matching to generate a package BOM; the package BOM generation unit is responsible for generating a package BOM; and the package BOM generating unit comprises a client specified entity material and a non-specified entity material.

Referring to fig. 5, the creating unit of the JDM modular BOM includes a client specific module and a client non-specific module; the client designation module comprises a plurality of client designation module sets, each client designation module set comprises a plurality of specification sets and substitution sets, and each substitution set comprises a plurality of entity materials; the client non-specified module comprises a plurality of client non-specified module sets, each client non-specified module set comprises a plurality of specification sets and substitution sets, and each substitution set comprises a plurality of entity materials.

Referring to fig. 6, the package BOM generation unit is responsible for generating a package BOM; the package BOM generating unit comprises a client specified entity material (with a substitute material) and a non-specified entity material (with other specifications and entity materials automatically brought out by the specified material); the substitute materials in the non-specified materials can be automatically generated by the system according to the material inventory condition.

Referring to fig. 7, the produce BOM generation unit is responsible for performing secondary selection of the customer-specified key entity material on the package BOM to generate a produce BOM; and the BOM generating and producing unit comprises a secondary selection client specified key entity material and a non-specified entity material.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes performed by the present specification and drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A method for realizing modular BOM in JDM mode includes:

s100, a bill of material system is established, and the bill of material system establishes a modular bill of material under a product design mode according to a product architecture;

s200, the bill of material system uploads the modular bill of material under the corresponding product design mode to a product life cycle management system;

s300, the bill of material system carries out first matching on the modular bill of material under the product design mode to generate a package bill of material;

and S400, performing secondary matching on the package bill of materials by the bill of materials system to generate a production bill of materials.

2. The method of claim 1 for implementing modular BOM in JDM mode, wherein: in the step S100, the product architecture includes product information and product dimensions.

3. The method of claim 1 for implementing modular BOM in JDM mode, wherein: in the step S100, when the modular bill of materials in the product design mode is created through the product architecture, the method includes the following steps: s101, the bill of material system combs and plans corresponding module levels according to product information, wherein the module levels comprise a customer-specified entity material module, a customer non-specified entity material module and specification level materials, and the customer-specified entity material module, the customer non-specified entity material module and the specification level materials define and create an optional module for the whole product; s102, the bill of material system creates coding rules and naming rules of the modular bill of material under the corresponding product design mode; s103, the bill of material system sorts and defines the restriction and matching relation of the corresponding specification-level module and the module-level module according to the product dimension, limits the product support range and the restriction condition, and brings out the non-designated entity material module with corresponding configuration through the corresponding designated entity material module.

4. The method of claim 1 for implementing modular BOM in JDM mode, wherein: in the step S200, when uploading to the product life cycle management system, the method includes the following steps: s201, the product life cycle management system develops a load table tool template in a modular bill of materials under a product design mode to realize data layout of the whole modular bill of materials; s202, the product life cycle management system converts the corresponding limit relation in the load table document into a programming language which can be recognized by the bill of material system according to the corresponding load table document in the modular bill of material in the product design mode, and the product life cycle management system realizes and arranges the limit conditions in the material information; and S203, the material information system performs data arrangement and limiting condition butt joint on the modular bill of materials in the product design mode, uploads the modular bill of materials to the product life cycle management system, and performs matching combination.

5. The method of claim 1 for implementing modular BOM in JDM mode, wherein: in the step S300, when the package bill of materials is generated; and the product life cycle management system selects product modules and specifications, and selects material modules and specifications appointed by a customer for the first time to generate a package bill of materials.

6. The method of claim 5 for implementing modular BOM in JDM mode, wherein: the package bill of materials comprises customer specified entity materials and non-specified entity materials; the designated solid material comprises a substitute material; the non-specified materials comprise materials of other specifications and solid materials brought out by the specified materials and substitute materials; and the bill of material system in the non-specified entity material generates a substitute material according to the stock condition of the material.

7. The method of claim 1 for implementing modular BOM in JDM mode, wherein: the secondary matching of the package bill of materials by the bill of materials system comprises the secondary selection of the specified entity materials in the package bill of materials by the bill of materials system, and the production bill of materials is generated.

8. A JDM modular BOM system for implementation in a JDM mode, comprising: the system comprises a JDM modular BOM creating unit, a PLM uploading system unit, a package BOM generating unit and a production BOM generating unit; the uploading PLM system unit develops a load sheet tool template in a creating unit of the JDM modular BOM, and the package BOM generating unit performs first data matching to generate a package BOM; the package BOM generation unit is responsible for generating a package BOM; and the package BOM generating unit comprises a client specified entity material and a non-specified entity material.

9. The system of claim 8, wherein the system is configured to implement a modular BOM in JDM mode, and wherein: the creating unit of the JDM modular BOM comprises a client specifying module and a client non-specifying module; the client designation module comprises a plurality of client designation module sets, each client designation module set comprises a plurality of specification sets and substitution sets, and each substitution set comprises a plurality of entity materials; the client non-specified module comprises a plurality of client non-specified module sets, each client non-specified module set comprises a plurality of specification sets and substitution sets, and each substitution set comprises a plurality of entity materials.

10. The system of claim 8, wherein the system is configured to implement a modular BOM in JDM mode, and wherein: the production BOM generation unit is responsible for carrying out secondary selection on the package BOM by the key entity materials appointed by the customers to generate the production BOM; and the BOM generating unit comprises a second time of selecting the key entity materials and the non-specified entity materials specified by the customer.

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