KR20190140264A - PLM Apparatus and Managing Method Thereof - Google Patents

Abstract

An embodiment of the present invention relates to an apparatus for managing a product life cycle and to a control method thereof. The apparatus for managing a product life cycle improves the productivity of the manufacturing industry and ensures effective data management meeting user requirements and market needs, by implementing a smart cost management function and an intelligent BOM management function.

Description

Product Lifecycle Management Device and its Management Method {PLM Apparatus and Managing Method Thereof}

This embodiment relates to a product lifecycle management apparatus and its management method. More specifically, the present invention relates to a product lifecycle management apparatus having a smart cost management function and an intelligent BOM management function and a management method thereof for improving productivity of the manufacturing industry.

The contents described in this section merely provide background information on the present embodiment and do not constitute a prior art.

Recently, the necessity of internal and external collaboration in the manufacturing industry is increasing according to the rapidly changing market environment, which requires a quality management system such as establishment of integrated product development process, product lifecycle management, and information assetization.

The Product Lifecycle Management (PLM) system is the collective set of systems that manage all information related to the product at all stages of product planning, design, manufacturing, operation, maintenance and disposal. In particular, in the automotive parts manufacturing industry, as a single product is manufactured through a process of assembling and processing a large number of parts, it is essential to construct a PLM system to effectively integrate and manage various data and development outputs generated in each process.

Key features of the PLM system include bill of material (BOM) functionality and cost management capabilities to centrally manage parts information that occurs during the product design, development, and procurement phases.

On the other hand, the convergence of manufacturing industry and IT is changing the paradigm of the production method, and is emerging as a key element of the manufacturing leap forward. However, there is a need for diversified solutions as users' demand for cost savings increases due to the enormous data growth and economic downturn.

As a result, the PLM system needs a new technology that converges IT technology to provide a solution that meets user requirements and market demands, that is, smart cost management function and intelligent BOM management function.

The purpose of this embodiment is to improve the productivity of the manufacturing industry by implementing the smart cost management function and the intelligent BOM management function in the PLM device, and to enable effective data management to meet user requirements and market demands. have.

This embodiment includes an information collection unit for collecting design change information associated with the product to be managed; A BOM management unit which integrates and manages BOM information generated in relation to the product in each process step of the product, and visualizes and provides a change history of the BOM information according to the design change information; An intelligent cost calculator configured to provide a standardized calculation model including a combination of different calculation factors for each manufacturing method, and to calculate cost information related to the product based on the standardized calculation model and the BOM information; And an intelligent cost tracking unit that tracks the cost change situation related to the product based on the BOM information of each process step and generates cost analysis information according to the cost change situation. To provide.

Further, according to another aspect of the present invention, in the product management method of the product life cycle management device, the process of collecting the design change information associated with the product to be managed; Visualizing and providing a change history of BOM information generated in relation to the product in each process step of the product according to the design change information; Calculating cost information related to the product based on the BOM information and a standardized calculation model composed of a combination of different calculation factors for each manufacturing method; And tracking the cost change situation related to the product based on the BOM information for each process step, and generating cost analysis information according to the cost change situation.

According to the present embodiment, the smart cost management function and the intelligent BOM management function are implemented in the PLM device, so that the productivity of the manufacturing industry can be improved, and the effective data management can be performed in accordance with user requirements and market demands. .

1 is a configuration diagram illustrating a service model of a PLM device according to the present embodiment.
2 is a block diagram schematically illustrating a PLM device according to the present embodiment.
3 is a flowchart illustrating a product management method of the PLM device according to the present embodiment.
4 is an exemplary diagram for describing an intelligent BOM management function according to the present embodiment.
5A to 5C are first exemplary diagrams for describing a smart cost management function according to the present embodiment.
6 to 7 are second exemplary views for explaining a smart cost management function according to the present embodiment.

Hereinafter, the present embodiment will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram illustrating a service model of a PLM device according to the present embodiment. Hereinafter, a function executed by the PLM device 100 according to the present embodiment will be described with reference to FIG. 1.

The PLM device 100 provides a function for integrating and managing main contents distributed within an enterprise through standard business processes and classification systems, and sharing them with related departments, partners, and customers to efficiently collaborate with each other. do.

To this end, the PLM device 100 manages all information related to the product at all stages of the planning, design, manufacturing, operation, maintenance, and disposal of the product. That is, the PLM device 100 provides an environment that enables the integrated management of information such as product / part information and drawings / documents generated over a product life cycle from various viewpoints and tasks.

The PLM device 100 according to the present embodiment preferably provides a service model specialized for the automobile parts manufacturing industry. That is, the main modules provided in the PLM device 100 according to the present embodiment may be classified into a project, a drawing / document, a part, a bill of material (BOM) management, and the like, and a plurality of related service models are provided based on this. Can be.

For example, a service model that may be provided using the PLM device 100 according to the present embodiment may be a project management function, a drawing management function, a technical document management function, a part / BOM management function, a drawing distribution management function, and an interface function. have.

Among them, the BOM management function means the integrated management of the parts information generated during the design, development, and purchasing stage of the product. The PLM device 100 according to the present embodiment provides an intelligent BOM management function in order to increase user convenience and more efficiently manage parts.

The PLM device 100 according to the present embodiment provides a dashboard and an intelligent BOM management tool as an intelligent BOM management function. For example, the PLM device 100 according to the present embodiment provides a visualization function for increasing user convenience through a dashboard and provides an integrated management function based on the same. In addition, the PLM device 100 makes it easy to grasp the parts change status of the BOM when the design changes through the BOM management tool, and provides intelligent parts management functions such as multi-component parts management and replacement parts management functions.

In addition, the PLM device 100 according to the present embodiment additionally provides a smart cost management function in addition to the intelligent BOM management function. The smart cost management function combines artificial intelligence techniques such as machine learning techniques with conventional cost estimating functions to provide rapid cost advance cost estimation and target cost achievement for cost competitiveness enhancement at product planning and design stages. To ensure that optimal design is achieved.

The PLM device 100 according to the present embodiment provides a smart cost management function and a cost tracking management function as a smart cost management function.

For example, the PLM device 100 according to the present embodiment simplifies the cumbersome calculation factor work of the existing prior cost calculation through the smart advance cost management function, and is designed from the stage of ordering or reviewing products more efficiently based on advanced intelligent calculation algorithms. The preliminary cost at the point of change up to the SOP can be estimated. Based on this, we can continue to manage target costs.

In addition, the PLM device 100 can perform a gap analysis by mapping the cost estimation information created in the product development stage to each BOM unit through a cost analysis tracking function, and at this time, the correlation between each product number version (maintenance) / Alter / change / add / delete) and change factors so that cost information can be analyzed step by step.

Meanwhile, a detailed operation of supporting the intelligent BOM management function and the smart cost management function by the PLM device 100 according to the present embodiment will be described in detail with reference to FIG. 2.

2 is a block diagram schematically illustrating a PLM device according to the present embodiment.

As shown in FIG. 2, the PLM device 100 according to the present embodiment includes an information collecting unit 200, a BOM managing unit 210, an intelligent cost calculating unit 220, an intelligent cost tracking unit 230, and a database unit ( 240). Components included in the PLM device 100 according to the present embodiment are not necessarily limited thereto. That is, in FIG. 2, only components for providing the intelligent BOM management function and the smart cost management function among the components of the PLM device according to the present embodiment are illustrated by way of example. It is to be appreciated that the implementation of the functionality may have more or fewer components or configurations of different components than shown.

The information collecting unit 200 performs a function of collecting product related information generated at the design, development, and purchase stage of the product. Such product-related information may be information such as product / part information and drawings / documents caused over a product life cycle, and may be input information received from a user in relation to a product.

To this end, the information collecting unit 200 provides a user interface for inquiry between the user and the PLM device 100. That is, the information collecting unit 200 provides a means for a user to input a command such as input information to the PLM device 100, and thereby receives the input information from the user.

Similarly, the information collecting unit 200 may be provided with a communication means for communicating with other modules inside or outside.

The information collection unit 200 according to the present embodiment may collect design change information related to a product to be managed. Such design change information may be, for example, change information related to an assembly constituting a specific product or a part constituting the assembly, or may be change information about a manufacturing method at a specific stage in a product production process. In the present embodiment, the design change information collected by the information collecting unit 200 is not limited to the specific information.

The BOM manager 210 performs a function of storing and managing a bill of material (Bill of Materials) information necessary for producing a product to be managed. That is, the BOM manager 210 integrates and manages BOM information generated in relation to the product at each process step of the product.

The BOM management unit 210 according to the present embodiment provides an intelligent BOM management function in order to increase user convenience and more efficiently manage parts. That is, the BOM management unit 210 supports a dashboard and an intelligent BOM management tool module.

The BOM management unit 210 provides a visualization function for increasing user convenience through a dashboard, and based on this, provides an integrated management function related to a product.

The BOM management unit 210 makes it easy to grasp the parts change status of the BOM when the design is changed through the BOM management tool, and provides intelligent parts management functions such as multi-component parts management and replacement part management functions. For example, the BOM manager 210 may provide a user interface screen for registering, editing, and retrieving part information constituting an assembly assembled in a predefined unit in relation to the manufacture of a product.

In addition, the BOM manager 210 may visualize and provide a change history of BOM information according to the design change information collected through the information collector 200. In the present embodiment, the BOM management unit 210 may provide the parts change list information in the BOB information according to the design change information in association with the image stored corresponding to the product.

Meanwhile, referring to FIG. 4, the BOM management unit 210 according to the present embodiment provides functions such as automatic display of changes in BOM information, discontinued parts management, and replacement parts management through a intelligent BOM management tool module. You can see that.

The intelligent cost calculator 220 refers to a device that supports the smart advance cost management function among the smart cost management functions provided by the PLM device 100 according to the present embodiment.

The intelligent cost calculator 220 according to the present embodiment provides a standardized calculation model (design cost calculation UI) composed of a combination of different calculation factors for each manufacturing method, and costs related to products based on the standardized calculation model and BOM information. Calculate the information.

According to the present embodiment, the intelligent cost calculator 220 standardizes and modularizes different sets of calculation factors and correlations for each manufacturing method, thereby simplifying cumbersome calculation factors of existing prior cost calculation.

In addition, the intelligent cost calculator 220 provides an input factor reconstruction tool that allows the free reconstruction of the standardized calculation model generated by the manufacturing method as described above. Make it possible.

Hereinafter, a detailed method of providing the smart cost management function by the intelligent cost calculator 220 according to the present embodiment will be described.

The intelligent cost calculator 220 generates a standardized calculation model composed of combinations of different calculation factors for each manufacturing method. Preferably, the intelligent cost calculator 220 may generate a standardized calculation model for each manufacturing method through the process illustrated in FIGS. 5A to 5C.

The intelligent cost calculator 220 collects calculation factor element information related to cost calculation as a first operation for generating a standardized calculation model for each manufacturing method and makes a database.

For example, referring to FIG. 5A, it can be seen that the intelligent cost calculator 220 forms a data dictionary for each method by registering all reference information and cost information necessary for cost calculation of a company in the form of a table.

The intelligent cost calculator 220 configures design cost template information corresponding to at least one manufacturing method based on the collected calculation factor element information. That is, the intelligent cost calculator 220 calculates a combination of calculation factor element information corresponding to each manufacturing method based on the calculation factor element information, and defines attribute information of the calculated calculation factor element information combination to design the above. Cost template information (= calculation factor screen) can be constructed.

For example, referring to FIG. 5B, it can be seen that the intelligent cost calculator 220 constructs a cost calculation factor screen for each method by using a cost calculator in a data dictionary for each method and a component of a palette already implemented.

The intelligent cost calculator 220 generates a standardized calculation model for each manufacturing method through a logic configuration using the above-described design cost template information. That is, the intelligent cost calculator 220 defines a relationship between the calculation factor element information included in the design cost template information through a formula to generate a standardized calculation model having at least one logic configuration related to the design cost calculation of the manufacturing method. Create

For example, referring to FIG. 5C, it can be seen that the intelligent cost calculator 220 configures the logic for calculating the material cost, processing cost, and other costs by using the calculation factors of the design cost template information screen registered in FIG. 5B. . At this time, the logic screen is composed of a Case by Case using the Tab Controller, branching the logic through the relationship and formula between the calculation factors, and can calculate the material cost through the formula using the label name in the case. In addition, for formulas of frequently used patterns, recommendation and autocompletion can be used to increase the efficiency of logic construction.

As described above, when the standardized calculation model for each manufacturing method of the intelligent cost calculator 220 according to the present embodiment is generated, the screen configuration and the modular screen are separated from the repetitive work due to the cost calculation logic that is not standardized in the industry. There is an effect that the optimized costing logic can be implemented through the logic configuration.

The intelligent cost calculator 220 calculates a corresponding standardized calculation model when the variation of the manufacturing method related to the product is recognized based on the design change information collected by the information collector 200, and calculates the corresponding standardized calculation. Based on the model, the costing function of the product can be provided.

On the other hand, as described above, the intelligent cost calculator 220 according to the present embodiment provides an input factor reconstruction tool for reconfiguring the standardized calculation model for each manufacturing method freely. For example, if the corresponding standardized calculation model corresponding to the design change information does not exist, the intelligent cost calculator 220 calculates a standardized calculation model having the same or similarity as the calculation factor element information corresponding to the design change information. Based on the calculated standardized calculation model, it is possible to provide a reconstruction function for generating a corresponding standardized calculation model.

In addition, in the present embodiment, the intelligent cost calculator 220 estimates the prior cost at the point of change from the order or review of the product to the design phase and the standard operation procedure (SOP), and based on the calculated prior cost Simulation information can be provided to achieve target costs.

The intelligent cost tracking unit 230 refers to a device that supports a cost analysis tracking function among the smart cost management functions provided by the PLM device 100 according to the present embodiment.

The intelligent cost tracking unit 230 according to the present exemplary embodiment tracks the cost change situation related to the product based on the BOM information for each process step managed by the BOM management unit 200, and analyzes the cost according to the cost change situation. Create and provide.

To this end, the intelligent cost tracking unit 230 maps the cost estimate information calculated at each step of the product process step into a BOM information unit.

Thereafter, the intelligent cost tracking unit 230 tracks the cost change situation for each step or item through comparison between the mapped BOM information when the BOM information is changed due to the design change information collected through the information collecting unit 200.

6 to 7, it can be seen that the intelligent cost tracking unit 230 compares and analyzes two pieces of BOM information, thereby analyzing and visualizing the cost change.

Meanwhile, the intelligent cost tracking unit 230 according to the present exemplary embodiment provides tracking number information (CTN) assigned to cost estimation information included in each BOM information when performing comparison between mapped BOM information. Perform correlation analysis based on.

That is, referring to FIG. 6, in the case of the intelligent cost tracking unit 230, it may be confirmed that correlation analysis between cost estimation information given the same tracking number information is performed. To this end, the intelligent cost tracking unit 230 may be provided with a CTN granting means, and through the CTN granting means, the same tracking number information may be given to item information (ex: product number information) in which a mutual linkage exists. have.

On the other hand, the intelligent cost tracking unit 230 may utilize artificial intelligence techniques such as machine learning (Machine Learning) in the process of selecting item information that has a mutual relationship. For example, the intelligent cost tracking unit 230 learns the mutual relationship based on the item information with respect to the cost estimation information included in the mapped BOM information, and associates with each other based on the tracking algorithm calculated through the learning result. Item information can be screened. Thereafter, the intelligent cost tracking unit 230 assigns the same tracking number information to the selected item information.

The database unit 240 stores various kinds of information necessary for providing an intelligent BOM management function and a smart cost management function.

Meanwhile, the PLM device 100 according to the present embodiment further includes a establishing unit (not shown) that establishes various plans related to products based on information collected through the components included in the PLM device 100. It may be implemented in the form.

In the present embodiment, the establishment unit, based on the cost information calculated through the intelligent cost calculator 220 and the intelligent cost tracking unit 230, it is possible to establish the sales plan budget and internal plan re-establishment related to the product. have. At this time, the establishment unit, together with the above cost information as the reference information for re-establishment, the point in time when the design change related to the change in the cost information occurs, the expected date of release of the product according to the design change and the cost information and the learning result related to the product Based on the estimated order prediction information can be further utilized.

For example, if it is determined that the profitability does not occur based on the cost information calculated by the intelligent cost calculator 220 and the intelligent cost tracker 230, a specific part and a specific method related to the calculation of the corresponding cost information are determined. In this regard, alternative parts and alternative methods can be calculated and provided. At this time, it is preferable that the specific part and the specific method are parts and a method in which the reflected numerical value is greater than or equal to a preset threshold with respect to the calculation of the corresponding cost information, but is not necessarily limited thereto.

Hereinafter, the establishment unit will be described in detail with respect to a method for providing a replacement part related to a specific part.

When the information on the replacement part is calculated, the establishment unit calculates a product release date when the replacement part is replaced with the corresponding replacement part, and calculates count time information between the calculated product release date and the product release deadline.

The establishment unit calculates the replacement part related information based on the BOM information managed by the BOM management unit 200 when the calculated count time information is less than a predetermined threshold value, and based on the design, the design based on the replacement part related information. Plan and sales plans can be reestablished.

If the calculated count time point information is greater than or equal to a preset threshold, the establishment unit may provide a recommendation part related to the substitute part through an interworking with an external server selectively according to a user selection. That is, the establishment unit searches a plurality of external servers (ex: web servers) through a search engine provided therein, and recommends a specific part corresponding to the replacement part among the information managed in the corresponding external server according to the search result. It can be provided as a part. In this case, the establishment unit may reestablish the design plan and the sales plan based on the recommended parts information provided from the external server.

On the other hand, the establishment unit may update the previously stored BOM information based on the recommended parts information from the external server, but according to the embodiment, a new BOM information model (based on the recommended parts information and the existing BOM information) = Predictive BOM information model) can be designed and provided. For example, if the establishment unit receives the recommended part information, the establishment unit sets it as missing information, and compares the set missing information with attribute information set for various parts in the BOM information. Thereafter, the establishment unit may define a correlation pattern between the two pieces of information through comparison between the missing information and the attribute information, and model and provide new BOM information including a new part or a new construction method with respect to the corresponding product. have. In this way, the new BOM information may be applied not only to the target product but also to the new managed product.

Meanwhile, the establishment unit periodically communicates with an external server irrespective of the cost information calculated by the intelligent cost calculator 220 and the intelligent cost tracker 230, thereby updating the BOM information and a new BOM. It can also perform information model design functions.

3 is a flowchart illustrating a product management method of the PLM device according to the present embodiment.

The PLM device 100 collects design change information related to a product to be managed (S302). The design change information may be, for example, change information related to an assembly constituting a specific product or a part constituting the assembly, or may be change information about a manufacturing method at a specific stage in a product production process.

The PLM apparatus 100 visualizes and provides a change history of the BOM information according to the design change information collected in step S302 (S304). In operation S304, the PLM device 100 may provide the component change list information in the BOB information according to the design change information in association with the stored image corresponding to the product.

The PLM device 100 calculates cost information related to a product based on a standardized calculation model and BOM information composed of combinations of different calculation factors for each manufacturing method (S306). On the other hand, the PLM device 100 collects the calculation factor element information related to the cost calculation to make a database, based on this to configure the design cost template information corresponding to at least one or more manufacturing method, using the configured design cost template information The logic configuration allows the creation of standardized calculation models for each manufacturing process.

In step S306, the PLM device 100 calculates a corresponding standardized calculation model when the variation of the manufacturing method related to the product is recognized based on the design change information collected in step S302, and based on the calculated standardized calculation model. The costing function of the product can be provided.

The PLM device 100 tracks the cost change situation of the product based on the BOM information for each process step, and generates and provides cost analysis information according to the cost change situation (S308). In step S308, the PLM device 100 tracks the cost change situation for each step or item through comparison between the BOM information mapped to the BOM information change due to the design change information collected in step S302.

Here, since steps S302 to S308 correspond to the operation of each component of the PLM device 100 described above, further detailed description thereof will be omitted.

In FIG. 3, each process is described as being sequentially executed, but is not necessarily limited thereto. In other words, since the process described in FIG. 3 may be applied by changing or executing one or more processes in parallel, FIG. 3 is not limited to the time series order.

As described above, the product management method of the PLM device described in FIG. 3 is a recording medium (CD-ROM, RAM, ROM, memory card, hard disk, magneto-optical disk, storage device, etc.) implemented as a program and capable of reading software of a computer. ) Can be recorded.

The above description is merely illustrative of the technical idea of the present embodiment, and those skilled in the art to which the present embodiment belongs may make various modifications and changes without departing from the essential characteristics of the present embodiment. Therefore, the present embodiments are not intended to limit the technical idea of the present embodiment but to describe the present invention, and the scope of the technical idea of the present embodiment is not limited by these embodiments. The scope of protection of the present embodiment should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present embodiment.

100: PLM device 200: information collection unit
210: BOM management unit 220: intelligent cost calculation unit
230: intelligent cost tracking unit 240: database unit

Claims (12)

An information collection unit collecting design change information related to a product to be managed;
A BOM management unit which integrates and manages BOM information generated in relation to the product in each process step of the product and visualizes and provides a change history of the BOM information according to the design change information;
An intelligent cost calculator configured to provide a standardized calculation model including a combination of different calculation factors for each manufacturing method, and to calculate cost information related to the product based on the standardized calculation model and the BOM information; And
And an intelligent cost tracking unit for tracking a cost variation situation related to the product based on the BOM information for each process step and generating cost analysis information according to the cost variation situation. The method of claim 1,
The BOM management unit,
It provides a user interface screen for registration, editing and retrieval of the parts information constituting the assembly assembled in a predefined unit in relation to the manufacture of the product,
And providing part change list information in the BOB information according to the design change information in association with the stored image corresponding to the product. The method of claim 1,
The intelligent cost calculator,
Collecting and factoring calculation factor element information related to cost calculation, constructing design cost template information corresponding to at least one manufacturing method based on the calculation factor element information, and constructing logic using the design cost template information Product life cycle management apparatus, characterized in that for generating the standardized calculation model through. The method of claim 3, wherein
The intelligent cost calculator,
A product comprising: calculating the calculation factor element information combination corresponding to each manufacturing method based on the calculation factor element information, and defining the attribute information of the calculated calculation factor element information combination to configure the design cost template information. Life Cycle Management Device. The method of claim 3, wherein
The intelligent cost calculator,
A product for generating the standardized calculation model having at least one logic configuration related to the calculation of the design cost of the manufacturing method by differently defining the relationship between the calculation factor element information included in the design cost template information. Life Cycle Management Device. The method of claim 1,
The intelligent cost calculator,
When the variation of the manufacturing method associated with the product is recognized based on the design change information, a corresponding standardized calculation model is calculated, and the costing function of the product is provided based on the corresponding standardized calculation model. Product Lifecycle Management Device. The method of claim 6,
The intelligent cost calculator,
If the corresponding standardized calculation model does not exist, calculate a standardized calculation model having the same or similarity as the calculation factor element information corresponding to the design change information, and generate the corresponding standardized calculation model based on the calculated standardized calculation model. Product life cycle management device, characterized in that for providing a reconfiguration function. The method of claim 1,
The intelligent cost calculator,
A product characterized in that the prior cost is calculated at the point of change from the order or review stage of the product to the design stage and the SOP (Standard Operation Procedure), and provides simulation information for achieving the target cost based on the prior cost. Life Cycle Management Device. The method of claim 1,
The intelligent cost tracking unit,
The cost change step by step or item through the mapping between the cost estimate information calculated at each step of the process step of the product to the BOM information unit, and the mapped BOM information when changing the BOM information due to the design change information A product lifecycle management device for tracking the situation. The method of claim 9,
The intelligent cost tracking unit,
Product life cycle management apparatus for tracking the cost change situation by performing a correlation analysis based on the tracking number information given to the cost estimation information included in the mapped BOM information. The method of claim 10,
The intelligent cost tracking unit,
Based on the item information on the cost estimation information included in the mapped BOM information, the pre-relationship relationship is pre-learned, and the same tracking is performed on the item information related to each other based on the tracking algorithm calculated through the learning result. A product life cycle management device, characterized by giving number information. In the product management method of the product life cycle management device,
Collecting design change information related to the product to be managed;
Visualizing and providing a change history on BOM information generated in relation to the product in each process step of the product according to the design change information;
Calculating cost information related to the product based on the BOM information and a standardized calculation model composed of a combination of different calculation factors for each manufacturing method; And
Process of tracking the cost fluctuations related to the product based on the BOM information of each process step and generating cost analysis information according to the cost fluctuations
Product management method comprising a.

Images