JP2004038656A - Product design support device and method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To support a product design so that a product structure can be rapidly and effectively determined. <P>SOLUTION: A part registration part 11a registers parts constituting a product with discrimination to a logic part, a physical part, or a virtual part to a DB 12, for example, according to the part registration designation of a terminal 30-1. A part retrieval part 11c retrieves, when a part retrieval with at least a specification value designated is requested from the terminal 30-1, parts corresponding to the designated specification value from the DB 12. A list of the retrieved parts is displayed on the terminal 30-1 by a list display part 11d. A structure registration part 11b registers a product structure composed of the parts designated by the terminal 30-1 and registered in the DB 12 to the DB 12. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a design technology applied to an order-based design / production-type industry that designs and produces a product in response to the presentation of a required specification from a customer, and a design support for supporting a product design work, particularly a product configuration definition work. Apparatus and method.
[0002]
[Prior art]
When designing and producing a product based on a requirement specification presented by a customer, the design work is generally performed in the following procedure.
[0003]
(1) Definition of required specifications
When a customer presents a required specification, that triggers the start of design work (estimated design or detailed design). At the initial stage of presentation of the required specifications, the required specifications include many vague points. Therefore, the work of clarifying the required specifications is performed through Q & A (question and answer) between the customer and the designer.
[0004]
(2) Development of specification functions
The function is developed based on the required specifications. At this stage, the required specifications include ambiguous points, particularly points that cannot be understood without actually creating a product. Therefore, functions are developed including those for which the specification of the product subsystem (module of the product unit) is determined and those for which the specification is not determined.
[0005]
The following operations (3) to (5) are performed based on the personal know-how of the designer.
(3) Examination of product configuration
The product configuration is defined by taking into account the function development and the physical sub-systems or parts.
[0006]
▲ 4 ▼ Drawing search and diversion
Search for the components of the defined product from similar past cases and consider diversion.
[0007]
▲ 5 ▼ Create new drawing
With respect to the components of the defined product that cannot be diverted, that is, the components that require new development, development and design studies are performed, and a new drawing is created.
[0008]
▲ 6 ▼ Prototype
Define the product configuration again, determine the parts to be used, and prototype the actual product.
[0009]
[Problems to be solved by the invention]
The above-described conventional product design method has the following problems.
[0010]
(1) There is no mechanism for promptly determining the required specifications. In particular, specification changes are likely to occur even after the specification is determined. Therefore, the start of the design study is delayed and the work is redone.
[0011]
(2) There is no mechanism to effectively refer to past product designs and manufacturing. For this reason, a new drawing tends to be created, and the utilization of past experience and results and the diversion of design do not progress.
[0012]
(3) Due to intensifying market competition, the incorporation of new functions into developed products is increasing. Therefore, the development of the components of the product is performed in parallel with the design, and the influence of the new function and the work priority are determined personally. However, it is difficult to define a product configuration quickly and effectively by a personal method.
[0013]
SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a design support apparatus and a method for supporting a product configuration to be defined quickly and effectively.
[0014]
[Means for Solving the Problems]
According to one aspect of the present invention, there is provided a product design support apparatus for supporting product design. This product design support device, by a component registration designation from a terminal using the product design support device, a component constituting a product, a logical component having a specification value which is not determined and having a specification value having a range as a component attribute, or Whether the physical class is a physical part that has a specified specification and has a specific specification value as a part attribute, or a virtual part that has a specific specification value as a part attribute but requires development. Component registration means for distinguishing and registering in the database, and when at least a specification value is specified from the terminal and a component search is requested, a component search means for searching the database for a component corresponding to the specified specification value, List display means for displaying the list of parts searched by the part search means on the terminal; and entry into the database designated by the terminal. The product structure composed of parts which are composed of a structure registering means for registering in the database.
[0015]
In the above configuration, three types of parts having different part classifications, that is, a logical part with unspecified specifications, and a specification of an existing physical element are specified as element parts of a product configuration that plays a central role in product design and production. Parts and virtual parts whose specifications are specified but need to be developed are applied. Each part is registered in the database in a state where its part classification is distinguished. Further, in the above configuration, the product configuration is defined by a logical configuration model configured by combining components specified from the terminal among the components registered in the database.
[0016]
As described above, by introducing a logical configuration model composed of components divided into three component categories of a logical component, a physical component, and a virtual component, and adopting a configuration in which a product configuration is defined, a design whose specifications are not fixed can be determined. Even in the initial stage, the use of many logical components having ambiguous specification values enables quick and effective product configuration definition work. Also, at the stage where the design study has progressed and the specifications have gradually solidified, instead of the logical components, the specification values of the vague values that are the attributes of the logical components, that is, the specification values corresponding to the specification values in a range Since it is possible to use a physical part or a virtual part having the following, a quick and effective product configuration definition operation is also possible. In addition, in the above configuration, the specification of the specification value causes the corresponding part to be searched from the database, and a list of the searched parts (search result list) is displayed on the terminal. Can be appropriately selected. That is, in the above-described configuration, the product configuration definition conventionally performed by a person at the product development site can be quickly and efficiently organized using a database system having a data structure of a logical configuration model.
[0017]
Here, when the specification value, which is one of the search conditions, is a specification value having a range, the specification value is included in the specification value range or a part of the specification value range. It is preferable to search all the logical components having the specification value range in which is overlapped, and display a list of the search results on the terminal. With such a configuration, it is possible to easily use the defined logical components in the product configuration definition work. In particular, when an arbitrary logical component is selected on a list of search results performed in response to a logical component search request from a terminal, that is, a list of logical components, the specification value range of the selected logical component is selected. If the configuration is such that a physical component and a virtual component having specification values that fall within the database are searched from the database as recommended component candidates, and a list of the search results, that is, a list of recommended component candidates is presented to the designer (user) via the terminal. For example, instead of a logical component whose specification value is ambiguous, a registered physical component or virtual component that is associated with the logical component by the specification value can be used. Therefore, in the component search using the above-described range of specification values, when the design study is progressing and the specifications are gradually hardened, instead of the logical components, the physical components associated with the logical components by the specification values are replaced. This is effective when using parts or virtual parts.
[0018]
In addition, a candidate to be registered as a recommended component is selected and designated by a terminal operation of a designer from a list of the searched recommended component candidates, and the selected and designated candidate is registered in the database as a recommended component for the corresponding logical component. With such a configuration, the designer can easily search for a recommended component for the logical component only by specifying an arbitrary logical component.
[0019]
In addition, in accordance with the product configuration display designation from the terminal, each component which is an element of the product configuration registered in the database is displayed on the terminal in a display form in which the component classification of the component can be identified. Then, the designer can easily grasp the progress of the design study based on the product configuration display content based on the component classification of each component constituting the product defined at that time. In other words, when the number of logical components is large in the product configuration, it is at the initial stage of design, and when the ratio of physical or virtual components is large, the design study is at an advanced stage. I can understand. In the state where no logical component exists in the product configuration, it can be understood that the product can be put into trial production. Further, since a part to be newly developed can be confirmed from the existence of the virtual part in the product configuration, the development elements can be efficiently extracted.
[0020]
The present invention according to the above-described design support apparatus is realized as an invention according to a product design support method having a processing procedure applied to the apparatus, or as an invention according to a program for causing a computer to execute the processing procedure. I do.
[0021]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a block diagram showing a configuration of a product design system including a design support device according to an embodiment of the present invention.
[0022]
In the system of FIG. 1, the design support device 10 is connected to terminals 30-1 to 30-n via a network 20. The design support device 10 supports a designer's product design work, in particular, a work of defining a product configuration. The terminals 30-1 to 30-n request the design support device 10 via the network 20 for support of product design including the definition of the product configuration in accordance with the operation of the designer (user).
[0023]
The design support device 10 is a server computer including an application server 11 and a database (hereinafter, referred to as DB) 12. It should be noted that the design support apparatus 10 and the DB 12 may be provided independently, and the design support apparatus 10 may be able to access the DB 12.
[0024]
The DB 12 includes an item master table 12a, a configuration table 12b, and a substitution table 12c.
Here, before describing the data structure of the tables 12a to 12c, a logical configuration model of a part applied in the present embodiment will be described. The data structure of the logical configuration model is defined by logical components, physical components, and virtual components as described below.
[0025]
(1) Logical components
Components or modules whose specifications are not specified are called logical components. A module refers to a parent part composed of a plurality of child parts when the structure of the module is represented by a tree structure, and is sometimes called a unit. There are parts that cannot be parent parts, that is, parts that can only be child parts, and parts that can be parent parts. The logic component has a specification value with a range as an attribute. It is classified into a plurality of logical components within the range of this specification value. For example, assuming that a component whose specification value range of type X is a1 to a2 is expressed as a logical component A and a component whose specification value range of type X is b1 and b2 is expressed as a logical component B, the logical component A The logical component is classified as a logical component different from the logical component B.
[0026]
(2) Physical parts
A component or module whose specification is specified and which already exists is called a physical component. Physical components have specification values without ranges as attributes. That is, specific values are set as the specification values of the physical components.
[0027]
(3) Virtual parts
Although the specification is specified, a part or module that does not exist, that is, a part or module that needs to be newly developed is called a virtual part. A physical component has a specification value without a range as an attribute, and a specific value is set as the specification value.
[0028]
In the present embodiment, by introducing a logical configuration model representing the relationship between a logical component, a physical component, and a virtual component, the physical component and the virtual component are classified according to specification values, and a specific A mechanism that can refer to components with various values is realized. FIG. 2 shows an example of the relationship between the logical component, the physical component, and the virtual component.
[0029]
The DB 12 is used to register and manage the data structure of the logical configuration model. As described above, this DB 12 includes the item master table 12a, the configuration table 12b, and the substitution table 12c.
[0030]
The item master table 12a is a table for managing items. The item refers to a product, a component or a module (unit) that is a component of the product. In the following description, products and modules are also referred to as parts unless it is necessary to distinguish between the product and the modules or parts that make up the product, or unless it is necessary to distinguish between the module and the parts that make up the module. deal with. As is apparent, when the product configuration is represented by a tree structure, the component forming the root node is the product.
[0031]
As shown in FIG. 3, each record registered in the item master table 12a includes a part number as part (product, module or part) identification information, a part type, a part classification, and specification value fields. Be composed. The component type indicates the type of component having a common specification. The component category indicates whether the corresponding component is a logical component, a physical component, or a virtual component. Details of this part classification will be described later. The specification value is an attribute of the corresponding component. The specification values are not limited to one type. Each record registered in the item master table 12a includes a part name field (not shown) in addition to the above fields.
[0032]
The configuration table 12b is a table for managing the product configuration, in particular, the parent-child relationship of each part constituting the product. As shown in FIG. 4, each record registered in the configuration table 12b includes a part number of a parent part, a part number of a part (child part) serving as a child (component) of the parent part, and the number of the child parts. Field. Therefore, assuming that a record of child part = B and number = 2 and a record of child part = C and number = 1 are registered as records of parent part A in the configuration table 12b, both records Thus, it can be seen that component A is composed of two components B and one component C. Further, assuming that a record of child part = D and number = 1 and a record of child part = E and number = 1 are registered as records having part B as a parent part, the part It can be seen that B is composed of one part D and one part E.
[0033]
The replacement table 12c is a table for managing, for each component, a component that can be used instead of the component (substitute component), that is, a component that is recommended to be used instead of the component (recommended component). As shown in FIG. 5, each record registered in the substitution table 12c includes fields of a part number of a part and a part number of a substitute part (recommended part) corresponding to the part.
[0034]
As described above, in the present embodiment, the relationship between the logical component and the physical component / virtual component is registered and managed using the item master table 12a, the configuration table 12b, and the substitution table 12c having the above-described data structure.
[0035]
The application server 11 configures a PDM (Product Data Management) system (product information management system) that is the center of the design support apparatus 10. The application server 11 is configured to be able to support individual tasks in addition to the conventionally-known general-purpose design tasks. Therefore, the application server 11 includes functional components of a component registration unit 11a, a configuration registration unit 11b, a component search unit 11c, a list display unit 11d, and a configuration display unit 11e.
[0036]
The component registration unit 11a has a function of registering components of a specified component type and component classification in an item master table 12a in the DB 12 in response to a request from a designer. At the time of component registration, a specification value attribute is added for each component type. In the case of a physical component and a virtual component, a specific value is set in the attribute, and in the case of a logical component, the value of the attribute is represented by a range. The component registration unit 11a replaces a (recommended) physical component / virtual component having the same type as the logical component and having a specification value within the specification value range of the logical component with an alternative component used in place of the logical component. As a (recommended component), a recommended component registration unit 110a that registers the logical component in the substitution table 12c in association with the logical component is included. The component registration function of the component registration unit 11a including the recommended component registration unit 110a supports the details of the product configuration definition work.
[0037]
The configuration registration unit 11b has a function of registering a product configuration specified by a designer in the DB 12, that is, a function of defining a product configuration. Here, the configuration registration unit 11b defines the product configuration by registering the parent-child relationship of each component constituting the product in the configuration table 12b. The product configuration registration (parent / child relationship registration) by the configuration registration unit 11b is executed by designating a parent part and a child part on a product configuration registration screen by a designer. In order to specify the parent part and the child part, it is possible to directly specify the target part by, for example, a part number. However, by specifying an attribute such as a specification value, the part search unit 11c searches for the target part. It is also possible to search and designate as a parent part or a child part. The function of the configuration registration unit 11b also supports the details of the product configuration definition work.
[0038]
The part search unit 11c has a function of searching for a part registered in the DB 12 by at least one of a part number, a part type, and a part classification. In particular, the component search unit 11c also has a function of searching for a corresponding component based on (combinations of) specification values added to the component. The component search unit 11c includes a recommended component candidate search unit 110c and a recommended component search unit 111c that search for a physical component / virtual component via a logical component. The recommended component candidate search unit 110c specifies a logic having a specification value range that falls within (or partially overlaps with) the specified range as a result of the specification value range of the component type to be searched being specified by the designer (user). When a part is searched, a physical part and a virtual part related to the logical part selected and designated by the designer are searched from the item master table 12a in the DB 12 as recommended part candidates. When an arbitrary logical component is specified by the designer and a recommended component search is requested, the recommended component search unit 111c searches the alternative table 12c in the DB 12 for a recommended component for the specified logical component. The component search function of the component search unit 11c including the recommended component candidate search unit 110c and the recommended component search unit 111c supports design diversion.
[0039]
The list display unit 11d displays a list of search results searched by the component search unit 11c on the terminal that has requested the search.
The configuration display unit 11e has a function of displaying a product configuration in, for example, a tree structure. In particular, the configuration display unit 11e displays, in the product configuration display, a display form that allows a designer (user) to identify whether each component constituting the corresponding product is a logical component, a physical component, or a virtual component. Is displayed. From this product configuration display, a virtual component, that is, a component to be newly developed can be identified. That is, the function of the configuration display unit 11e supports cutting out a new development item from the product configuration.
[0040]
The application server 11 includes, in addition to the component registration unit 11a, the configuration registration unit 11b, the component search unit 11c, the list display unit 11d, and the configuration display unit 11e, a component deletion unit that deletes component registration, and a product configuration registration. A configuration deletion unit that deletes (registration of parent-child relationships between components), a component editing unit that changes (edits) attributes (for example, specification values) of components, and changes a product configuration (parent-child relationship between components) ( It also includes a configuration editing unit that edits) and a configuration difference detection unit (both not shown) that compares the same type of product configuration and detects the difference.
[0041]
Next, an outline of a flow of product design using the design support function of the design support device 10 in FIG. 1 will be described with reference to the operation explanatory diagram of FIG.
[0042]
First, when a requirement specification (requirement specification definition) defined by a customer is presented (step 601), the designer develops a specification function so as to match the presented requirement specification (step 602). At this stage, in many cases, the specifications of the functions of the components which are the components of the product indicated by the required specifications have not been determined. Therefore, at the stage where the functions are developed in step 602, many of the product configurations after the development are composed of only logical components as in the example of the logical configuration model 611 shown in FIG. This logical component is an existing logical component that is retrieved from the DB 12 according to the specification value range and is diverted, or a logical component that is newly defined and registered in the DB 12. Here, the search for the logical component is performed from the terminal 30-i (i is any one of 0 to 1) using the component search unit 11c in the design support apparatus 10. The registration of the new logical component is performed from the terminal 30-i using the component registration unit 11a in the design support apparatus 10.
[0043]
Next, the designer examines the logical configuration model (step 603). In the initial stage of the study, the designer edits the product configuration by selecting, from the physical parts or the virtual parts, which are associated with the logical parts, the parts that are confirmed to meet the design specifications. Thereby, the logical configuration model 611 is changed to, for example, a logical configuration model 612 shown in FIG. Here, the selection of the physical component or the virtual component is performed by the terminal 30-i using the component search unit 11c in the design support apparatus 10.
[0044]
By the way, at the stage where the study of the logical configuration model has been advanced, the designer uses the more specific specification values to proceed with the study of the physical component to be diverted among the physical components related to the logical component. . Based on the result of this study, the designer edits the product configuration again. Thus, the logical configuration model 612 is changed to, for example, a logical configuration model 613 shown in FIG.
[0045]
Next, the designer determines specific specifications including new development of parts or design diversion. Here, a new drawing is created for the newly developed physical part corresponding to the virtual part (step 604). On the other hand, for design diversion, a drawing that can be diverted from existing physical components is searched (step 605). Thus, for example, the logical configuration model 614 shown in FIG. 6 is completed. This logical configuration model 614 indicates a completed product configuration that does not include logical components and virtual components. Based on the logical configuration model (product configuration) 614, the retrieved drawing (that is, the drawing to be diverted), and the newly created drawing, a product is prototyped (step 606). Here, whether or not the logical configuration model 614 indicates the completed product configuration can be determined by displaying the product configuration on the terminal 30-i using the configuration display unit 11e in the design support apparatus 10. is there.
[0046]
Also, in the present embodiment, based on the usage status of each logical component, each physical component, and each virtual component, which are elements of the product configuration (logical configuration model) of each product completed as described above, The standardization of parts is promoted by continuously performing the procedure for reviewing the functional specifications of. In this case, re-registration of the component to the DB 12 and updating of the product configuration accompanying the re-registration are performed.
[0047]
Next, component registration by the design support apparatus 10 (the component registration unit 11a therein) will be described with reference to the flowcharts of FIGS.
[0048]
First, the designer operates, for example, the terminal 30-1 to request the application server 11 of the design support apparatus 10 from the terminal 30-1 to request support for product design (product configuration definition work). Thus, the application server 11 causes the terminal 30-1 to display a list of processes (design support list) capable of supporting the product configuration definition work (step S1). This design support list (design support menu) includes “part registration”, “part search”, and “product configuration display” as items of processing that can be supported.
[0049]
When the part registration is necessary, the designer performs an operation for selecting “part registration” from the design support list. When “component registration” is selected on the design support list displayed on the terminal 30-1 (step S2), the application server 11 starts the component registration unit 11a (step S3). Then, the component registration unit 11a executes a component registration process (step S4) described below according to the flowchart of FIG.
[0050]
First, the component registration unit 11a causes the terminal 30-1 to display a component registration screen shown in FIG. 9A (Step S11). On the component registration screen, input fields 91, 92, and 93 for inputting a component number, a component type, and a component category, respectively, are arranged. The part number is a unique number for specifying the part. The component type indicates the type of component having a common specification. The component category indicates whether the corresponding component is a logical component, a physical component, or a virtual component.
[0051]
The component registration unit 11a receives an input from the terminal 30-1 by a designer's operation in the display state of the component registration screen (Step S12). Accordingly, when an operation for inputting a part number is performed in the input field (part number input field) 91 of the part registration screen (step S13), as shown in FIG. “P-XXX”) is displayed in the input field 91 (step S14).
[0052]
When an operation for inputting a component type is performed in the input field 92 (step S15), as shown in FIG. 9B or FIG. 9C, the component type (here, “A” or “ B ”) is displayed in the input field 92 (step S16). At this time, a specification value input field unique to the component type is displayed on the component registration screen corresponding to the input component type (step S17). In the example of FIG. 9B in which the component type “A” is input, input fields 94 of three types of specification values A1 to A3 are displayed. In the example of FIG. 9C in which the component type “B” is input, for example, an input field 95 for two types of specification values B1 and B2 is displayed.
[0053]
Further, when an operation for inputting a part class in the input field 93 is performed (step S18), as shown in FIG. 9D, FIG. 9E, or FIG. "Logical" or "physical" or "virtual") is displayed in the input field 93 (step S19). At this time, the component registration unit 11a determines whether or not the input component category is “logic (logical component)” (step S20). If it is "logical component", the input field of the specification value on the component registration screen is switched to an input field in which a minimum value (min) and a maximum value (max) can be input (step S21). In the example of FIG. 9D, the specification value input field 94 shown in FIG. 9B is replaced with an input field 96 in which a minimum value (min) can be input and an input field 97 in which a maximum value (max) can be input. Has been switched.
[0054]
Also, the specification value input field (the input field 94 or 95 in the example of FIG. 9B or 9C, the minimum value input field 96 or the maximum value input field 97 in the example of FIG. 9D) is specified. Is performed (step S22), the specification value is displayed in the input field (step S23).
[0055]
When the designer inputs desired “part number”, “part type”, “part classification”, and “specification value or its minimum and maximum values” on the part registration screen, the designer confirms the input values. If this input value is sufficient, the designer uses the terminal 30-1 to perform an operation for selecting a registration button (not shown) arranged on the component registration screen. Then, the component registration unit 11a in the application server 11 registers the component in the item master table 12a in the DB 12 based on the information set in (the input fields of) the component registration screen displayed on the terminal 30-1. A part record to be generated is generated, and the record is registered in the table 12a (steps S22 to S24).
[0056]
Next, component search by the design support device 10 (the component search unit 11c therein) will be described with reference to the flowcharts of FIGS. 7, 10, and 11, and a display screen example of FIG.
[0057]
First, in a state where the design support list is displayed on the terminal 30-1 by the same operation as in the case of the previous component registration (step S1), an operation for selecting “part search” from the list is performed. I do. When “component search” is selected on the design support list displayed on the terminal 30-1 (step S5), the application server 11 activates the component search unit 11c (step S6). Then, the component search unit 11c executes a component search process (step S7) described below according to the flowchart of FIG.
[0058]
First, the component search unit 11c causes the terminal 30-1 to display (the initial screen of) the component search screen shown in FIG. 12A (step S31). The configuration of the initial screen of the component search screen is the same as the configuration of the initial screen of the component search screen shown in FIG. That is, on the component search screen of FIG. 12A, input fields 121, 122, and 123 for inputting a component number, a component type, and a component category, respectively, are arranged.
[0059]
In this embodiment, at least one of the input fields 121, 122 and 123 is used to input a value of at least one of a part number, a part type, and a part classification, thereby designating conditions for part search. it can.
[0060]
The component search unit 11c receives an input from the terminal 30-1 by the operation of the designer in the display state of the component search screen (Step S32). Thus, when an operation for inputting a part number is performed in the input field (part number input field) 121 of the part search screen (step S33), the part number is displayed in the input field 121 (step S34). .
[0061]
When an operation for inputting a component type in the input field 122 is performed (step S35), as shown in FIG. 12B or FIG. 12C, the component type (here, “A” or “ B ”) is displayed in the input field 122 (step S36). At this time, a specification value input field unique to the component type is displayed on the component search screen corresponding to the input component type (step S37). In the example of FIG. 12B in which the component type “A” is input, input fields 124 for three types of specification values A1 to A3 are displayed. In the example of FIG. 12C in which the component type “B” is input, for example, an input field 125 for two types of specification values B1 and B2 is displayed.
[0062]
In the present embodiment, when a component type is input to the component type input field 122, a specification value input field (an input field 124 in the example of FIG. 12B and an input field 125 in the example of FIG. 12C). ) (Steps S42 and S43), the specification value can be included in the component search condition.
[0063]
By the way, when an operation for inputting a part class in the input field 123 is performed (step S38), as shown in FIG. 12D, FIG. 12E or FIG. "Logical" or "physical" or "virtual") is displayed in the input field 123 (step S39). At this time, the component search unit 12b determines whether or not the input component category is “logic (logical component)” (step S40). If it is "logical component", the input field of the specification value on the component registration screen is switched to an input field in which a minimum value (min) and a maximum value (max) can be input (step S41). In the example of FIG. 12D, the specification value input field 124 shown in FIG. 12B has an input field 126 that can input a minimum value (min) and an input field 127 that can input a maximum value (max). Has been switched to.
[0064]
In this embodiment, when the component category is “logical component”, that is, when searching for “logical component”, the minimum value and the maximum value of the specification value are input to the input fields 126 and 127, respectively (step S42, S43), the range indicated by the minimum value and the maximum value of the specification value can be included in the search condition.
[0065]
When the designer finishes inputting all the elements of the target component search condition on the component search screen, the designer checks the input values on the component search screen. If this input value is sufficient, the designer uses the terminal 30-1 to perform an operation for selecting a search button (not shown) arranged on the component search screen.
[0066]
Then, the component search unit 11c in the application server 11 generates the specified search condition based on the information set in (each input field of) the component search screen displayed on the terminal 30-1 (step). S44, S45). Next, the part search unit 11c searches all the parts that match the generated search condition from the item master table 12a in the DB 12 (step S46). The list display unit 11d receives the search result of the component search unit 11c and causes the terminal 30-1 to display a list of the search result (step S47).
[0067]
As described above, when the search is instructed in the state of the component search screen of FIG. 12E, all the physical components whose component type is B and whose specification values B1 and B2 are specified are searched. A list of the search results, that is, a list of physical parts satisfying the search conditions is displayed, for example, as shown in FIG. Similarly, when a search is instructed in the state of the parts search screen of FIG. 12F, all virtual parts having the part type B and the specified values B1 and B2 are searched, A list of the search results, that is, a list of virtual parts satisfying the search condition is displayed, for example, as shown in FIG.
[0068]
On the other hand, when a search is instructed in the state of the parts search screen of FIG. 12D, the part type is A and the specification value range is larger than a1 and smaller than a2, that is, the specification value range is the specified specification. All the logical components within the value range are searched, and a list of the search results, that is, a list of the logical components satisfying the search condition, is displayed, for example, as shown in FIG. It is also possible to search for a logical component in which a part of the specification value range overlaps with the specified specification value range. In other words, a logical component in which at least a part of the specification value range falls within the specified specification value range may be searched.
[0069]
Now, when the list of the logical components shown in FIG. 12G that satisfies the search condition is displayed, the designer uses the terminal 30-1 to perform an operation of selecting a desired logical component on the logical component list. Do. Then, the component search unit 11c (recommended component candidate search unit 110c therein) generates a search condition for searching for a physical component and a virtual component having specification values within the specification value range of the logical component (step). S48, S49). Then, the component search unit 11c (recommended component candidate search unit 110c therein) searches all the components that match the generated search conditions from the item master table 12a in the DB 12 as recommended component candidates (step S50). The list display unit 11d receives the search result of the component search unit 11c (recommended component candidate search unit 110c therein), and, for example, as shown in FIG. A list of physical parts and virtual parts) is displayed on the terminal 30-1 (step S51).
[0070]
From the search result list shown in FIG. 12 (j), the designer specifies on the screen specific physical parts and virtual parts that fall within the specification value range of the logical parts that match the search conditions specified by the designer as recommended part candidates. You can check with. If a physical part or a virtual part on the search result list shown in FIG. 12 (j) is registered in the alternative table 12c as a recommended part (alternative part) for the corresponding logical part, a design based on the alternative table 12c is performed. Can be diverted.
[0071]
Therefore, in the present embodiment, while the search result list shown in FIG. 12 (j) is displayed, the designer operates the terminal 30-1 to specify the registration in the alternative table 12c, It is possible to select and specify a physical part or a virtual part which is a candidate for registration above. If registration in the substitution table 12c and a physical component or a virtual component to be a registration candidate are specified (step S52), the component search unit 11c (the recommended component candidate search unit 110c therein) switches from the component registration unit 11a (the inside). Is passed to the recommended part registration unit 110a). Then, the component registration unit 11a (recommended component registration unit 110a therein) pairs the selected logical component (the component number thereof) with the physical component or the virtual component (the component number thereof) selected as the recommended component for the logical component. Is generated and registered in the substitution table 12c (step S53).
[0072]
The component search unit 11c (recommended component search unit 111c therein) searches the replacement table 12c for a physical component and a virtual component (recommended component) that can be used in place of the logical component. That is, the component search unit 11c (recommended component search unit 111c), when a logical component requiring replacement is specified by a terminal operation of a designer (on a logical component specification screen), the specified logical component ( By referring to the substitution table 12c using the (part number) as a key, a physical part and a virtual part registered as recommended parts for the logical part are searched. The list of recommended component search results by the component search unit 11c (the recommended component search unit 111c therein) is displayed on the terminal 30-1 by the list display unit 11d. Thus, the designer can select a desired physical component or virtual component (recommended component) from the list of recommended component search results and use it instead of the designated logical component.
[0073]
Further, for example, when an arbitrary logical component in the product configuration is selected (mouse clicked) while a product configuration including the logical component is displayed on the terminal 30-1, for example, the selected logical component The part search unit 11c (the recommended part search unit 111c therein) uses the (part number) as a key to refer to the substitution table 12c, thereby making it possible to search for a recommended physical part or virtual part.
[0074]
When the logical component is newly registered (step S26), the component registering unit 11a (the recommended component registering unit 110a therein) enters the range of the specification value of the logical component of the same type as the logical component. The physical part and the virtual part having the specified specification values are searched from the item master table 12a by the part search unit 11c (the recommended part search unit 111c therein) as the recommended parts (substitute parts) for the logical part. Each component, that is, a recommended component, can be automatically registered in the substitution table 12c in association with the logical component. Also, a physical component and a virtual component having the same type as the newly registered logical component and having a specification value within the range of the specification value of the logical component are set as a candidate for a recommended component for the logical component, and the component search unit 11c. (The recommended part candidate search unit 110c therein) may be searched from the item master table 12a. In this case, instead of automatically registering all searched parts in the substitution table 12c, the designer is allowed to select a recommended part from a list of search results similar to that shown in FIG. May be registered in the substitution table 12c in association with the logical component. Further, when a new physical component or virtual component is registered, the component may be automatically registered in the substitution table 12c in association with a logical component of the same type as the component and a specification value range including the specification value of the component. Good. In addition, the designer specifies whether a newly registered physical component or virtual component is a recommended component, and only when the recommended component is designated, the newly registered physical component or virtual component is assigned to the corresponding logical component. It may be registered as a recommended part in the substitution table 12c.
[0075]
As described above, in the configuration in which a recommended component is registered in the substitution table 12c when a component is newly registered, for example, when an arbitrary logical component is selected by a designer's operation on the logical component list shown in FIG. (Step S48) Instead of the search processing for the item master table 12a in the previous step S50, a search processing for the replacement table 12c may be performed. That is, a process of searching for all physical components and virtual components registered in the substitution table 12c in association with the selected logical component may be performed.
[0076]
Next, the product configuration display by the design support apparatus 10 (the configuration display unit 11e therein) will be described with reference to the flowchart of FIG. 13 and the display screen example of FIG.
[0077]
First, the designer displays the design support list on the terminal 30-1 by the same operation as in the case of the previous component registration (step S1), and selects "product configuration display" from the list. Perform the operation. When "product configuration display" is selected on the design support list displayed on the terminal 30-1 (step S8), the application server 11 activates the configuration display unit 11e (step S9). Then, the configuration display unit 11e executes a product configuration display process (step S10) described below according to the flowchart in FIG.
[0078]
First, the configuration display unit 11e causes the terminal 30-1 to display a product specification screen for allowing the designer to specify a product to be displayed (step S61). When the designer performs an operation of designating a product to be displayed in accordance with the product designation screen (steps S62 and S63), the configuration display unit 11e displays all components (or modules) constituting the specified product. The search unit 11c searches the configuration table 12b in the DB 12 (step S64). In this step S64, first, all child parts having the designated product as a parent part are searched. The operation of retrieving all child components having the retrieved child component as a parent component is repeated until there are no more child components to be retrieved.
[0079]
The configuration display unit 11e generates data representing the configuration (logical configuration model) of the specified product in a tree structure based on the parent-child relationship of the parts retrieved in step S64 (step S65). Next, the configuration display unit 11e refers to the item master table 12a in the DB 12 for the component constituting each node of the generated tree structure of the product configuration, and identifies the component category of the component (step S66). Then, the configuration display unit 11e converts the currently determined product configuration (logical configuration model) of the specified product in the form of a tree structure based on the component classification identification result of each component in step S66, and The terminal 30-1 is displayed on the terminal 30-1 in a display form in which the component classification of each component in the configuration can be identified (step S67). Here, each component in the product configuration is displayed in a different color or symbol (mark) according to the component classification identified in step S66. This allows the designer to determine the category of the component, that is, whether the component is a logical component, a physical component, or a virtual component, based on the display color or symbol (display form) of each component in the product configuration displayed on the screen. Easy to see. Here, in the case where the component classification is identified by color, the logical component is represented by yellow, the physical component is represented by gray, and the virtual component is represented by light blue. When a component category is identified by a symbol, a logical component is represented by a white circle, a physical component is represented by a black circle, and a virtual component is represented by a double circle.
[0080]
FIG. 14 shows a display example of the product configuration. FIG. 14A shows a display example of a product configuration (logical configuration model) in a stage where specification functions are developed in response to presentation of a required specification from a customer, that is, in an initial stage of product design. FIG. 14B shows a display example of the logical configuration model (unfinished product configuration) at a stage where the study (design study) of the logical configuration model has progressed a little, that is, at a middle stage of product design. FIG. 14C shows a display example of the product configuration at the final stage of the design study, that is, at the final stage of the product design.
[0081]
At the stage where the specification function has been developed in response to the presentation of the required specification from the customer, the product is mainly composed of logical components having ambiguous specification values. That is, in the product configuration at the stage when the specification function is developed, almost all parts (all parts in the example of FIG. 14A) are configured by logical parts as in the example of FIG. Therefore, the designer can grasp the initial stage of the design from the product configuration (logical configuration model) display shown in FIG.
[0082]
As the design study progresses, the recommended specification values of the physical components used in place of the logical components are examined. As a result of this study, for some of the logical components, recommended physical components are diverted as components of the product. For some other logical components, virtual components are diverted. In the example of the product configuration display of FIG. 14B, the use of the physical parts or the virtual parts is increased as compared with the example of FIG. 14A. Therefore, the designer can grasp from the configuration display shown in FIG. 14B that the design study is progressing. In addition, by displaying the product configuration of a plurality of products and comparing the product configurations of the products on the screen, it is possible to know the degree of influence such as the schedule of the development of the elemental technology related to the virtual part.
[0083]
By the way, in the final stage of the design study, the product configuration is configured by only physical components having specific specifications, or by physical components and virtual components. In such a state, concrete manufacturing (prototype) is started. The product configuration shown in FIG. 14C does not include a logical component, unlike the product configuration of FIG. 14B. Therefore, the designer can understand from the configuration display shown in FIG. 14C that the design study is completed and the next process (prototype) is to be started.
[0084]
Note that the present invention is not limited to the above-described embodiment, and can be variously modified in an implementation stage without departing from the gist of the invention. Further, the embodiments include inventions at various stages, and various inventions can be extracted by appropriately combining a plurality of disclosed constituent elements. For example, even if some components are deleted from all the components shown in the embodiment, the problem described in the column of the problem to be solved by the invention can be solved, and the effects described in the column of the effect of the invention can be solved. When at least one of the above is obtained, a configuration from which this configuration requirement is deleted can be extracted as an invention.
[0085]
【The invention's effect】
As described in detail above, according to the present invention, a part constituting a product is specified by a part registration designation from a terminal, a logical part having a specification value not yet determined and a specification value having a range as a part attribute, or a specification is specified. Then, a physical component that has a specific specification value as a component attribute, or a specification is specified, and a virtual component that has a specific specification value as a component attribute but needs to be developed is discriminated as to which component category it is. In addition to registering in the database, the product configuration consisting of the components registered in the database is registered in the database in accordance with the specification from the terminal. By frequently using logical components having various specification values, a quick and effective product configuration definition operation can be realized. Further, according to the present invention, when a part search requesting specification of a specification value is requested from a terminal, a part corresponding to the specification value is searched from a database, and a list of the searched parts is transmitted via the terminal. Thus, the product configuration can be defined by diverting components already registered in the database. That is, according to the present invention, the registered parts are systematically presented from the specification values specified by the user, so that the reuse of the registered parts is promoted, and a quicker and more effective product configuration definition operation is realized. it can.
[0086]
According to the present invention, a user-specified logical component having an ambiguous specification value is searched for a recommended physical component and a virtual component having a specific specification value to be used in place of the logical component, and presented to the user. In particular, the use of registered physical or virtual parts in the product configuration definition work at the stage of gradually hardening the specifications is promoted, realizing a quicker and more effective product configuration definition work. it can.
[0087]
Further, according to the present invention, in accordance with the product configuration display designation from the terminal, each component which is an element of the product configuration registered in the database is displayed via the terminal in a display form in which the component classification of the component can be identified. Thus, the progress of the design can be easily grasped from the product configuration display contents based on the component classification of each component constituting the product defined at that time. In addition, a part to be newly developed can be confirmed from the existence of the virtual part in the product configuration, whereby the development elements can be efficiently extracted.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a product design system including a design support device according to an embodiment of the present invention.
FIG. 2 is an exemplary view showing an example of a relationship between a logical component, a physical component, and a virtual component applied in the embodiment;
FIG. 3 is a diagram showing a data structure example of an item master table 12a in FIG.
FIG. 4 is a diagram showing an example of a data structure of a configuration table 12b in FIG. 1;
FIG. 5 is a view showing an example of a data structure of a substitution table 12c in FIG. 1;
FIG. 6 is an exemplary view for explaining the outline of the flow of product design in the embodiment.
FIG. 7 is a flowchart for explaining a design support process in the embodiment.
FIG. 8 is a flowchart for explaining a component registration process in the embodiment.
FIG. 9 is a diagram showing an example of a display screen during a component registration process.
FIG. 10 is a view showing a part of a flowchart for explaining a component search process according to the embodiment;
FIG. 11 is a view showing the rest of the flowchart for explaining the component search process in the embodiment.
FIG.
The figure which shows the example of a display screen at the time of component search processing.
FIG. 13
9 is a flowchart for explaining a product configuration display process in the embodiment.
FIG. 14
The figure which shows the example of a product structure display screen.
[Explanation of symbols]
10. Design support equipment
11 ... Application server
11a ... Parts registration unit
11b: Configuration registration unit
11c ... Part search section
11d: List display section
11e: Configuration display section
12 ... DB (database)
12a: Item master table
12b ... composition table
12c ... substitute table
110a: Recommended part registration part
110c ... Recommended parts candidate search section
111c: Recommended parts search section

Claims (14)

In a product design support device that supports product design,
According to the component registration designation from the terminal using the product design support device, a component constituting the product is specified, a logical component having a specification value which is not determined and having a range of specification values as a component attribute, or a specification is specified. An existing physical part with a specific specification value or a specification is specified, and it is registered in the database by distinguishing which part category of a virtual part that has a specific specification value as a part attribute but requires development Part registration means,
When a component search is requested by specifying at least the specification value from the terminal, a component search unit that searches the database for a component corresponding to the specified specification value,
List display means for displaying a list of parts searched by the part search means on the terminal,
A product registration support unit for registering, in the database, a product configuration composed of components registered in the database, designated by the terminal. The component search means, when a search for a logical component is requested from the terminal and the specification value specified by the terminal has a range, the component search means is included in the specified specification value range, or one of the specified specification value range. 2. The product design support apparatus according to claim 1, wherein all logical parts having a specification value range in which a part overlaps are searched. The component searching means, when an arbitrary logical component is selected on a list of logical components displayed in response to a search request for a logical component from the terminal and displayed on the terminal, selects the selected logical component. A recommended component candidate search means for searching the database as a recommended component candidate for a physical component and a virtual component having specification values falling within the specification value range of the component,
3. The product design support apparatus according to claim 2, wherein the list display means causes the terminal to display a list of recommended component candidates retrieved by the recommended component candidate retrieval means. The component registering means, when an arbitrary candidate is selected on a list of recommended component candidates displayed on the terminal, recommending to register the selected candidate as a recommended component for the corresponding logical component in the database. Including part registration means,
The component search means, when an arbitrary logical component is specified from the terminal and a recommended component search is requested, includes a recommended component search means for searching the database for a recommended component for the specified logical component,
4. The product design support according to claim 3, wherein the list display means displays a list of recommended parts searched by the recommended part search means on the terminal so that a part can be selected from the list. apparatus. The part search means includes a recommended part search means for searching the database for a physical part and a virtual part having specification values falling within a specification value range of the logical part when the logical part is registered by the part registration means. ,
The component registration unit includes a recommended component registration unit that registers the recommended component searched by the recommended component search unit when registering the logical component in the database in association with the logical component,
The recommended component search unit, when an arbitrary logical component is selected on a list of logical components displayed in response to a logical component search request from the terminal and displayed on the terminal, the selected logical component is selected. Search the database for recommended parts corresponding to the logical parts,
3. The product design support apparatus according to claim 2, wherein said list display means causes said terminal to display a list of recommended parts corresponding to said selected logical parts retrieved by said recommended part retrieval means. The component search means, when registering a logical component by the component registration means, searches the database for a physical component and a virtual component having specification values falling within a specification value range of the logical component as the recommended component candidates from the database. Including
The component registering unit, when registering the logical component, a candidate selected by the terminal from a list of recommended component candidates searched by the recommended component candidate searching unit as a recommended component for the logical component in the database. Including recommended parts registration means to register,
The list display unit, when a recommended component candidate is searched by the recommended component candidate search unit, causes the terminal to display a list of the searched recommended component candidates so that components can be selected from the list. 3. The product design support device according to claim 2, wherein: The component searching means, when an arbitrary logical component is selected on a list of logical components displayed in response to a search request for a logical component from the terminal and displayed on the terminal, selects the selected logical component. Including a recommended part search means for searching the database for a recommended part corresponding to the part,
7. The product design support apparatus according to claim 6, wherein the list display means causes the terminal to display a list of recommended parts corresponding to the selected logical part, which is retrieved by the recommended part retrieval means. According to a product configuration display designation from the terminal, a configuration display unit for displaying each component, which is an element of a product configuration registered in the database, on the terminal in a display form in which a component category of the component can be identified. The product design support apparatus according to claim 1, further comprising: In a product design support method of supporting product design by computer,
According to the component registration designation from the terminal using the computer, a component constituting the product is specified as a logical component or a specification having a specification value with a range as a component attribute, and a specific component component attribute. A step of registering in the database which of the existing physical parts having the specification values or the specification is specified, and distinguishing which of the virtual parts which have the specific specification values as the part attributes but need to be developed, in the database;
When at least a specification value is specified from the terminal and a component search is requested, a step of searching the database for a component corresponding to the specified specification value,
Displaying a list of parts retrieved from the database on the terminal;
Registering, in the database, a product configuration including components registered in the database, designated by the terminal. In the search step, when a search for a logical component is requested from the terminal and a specification value specified by the terminal has a range, the search result is included in the specified specification value range, or a part of the specified specification value range. 10. The product design support method according to claim 9, wherein all logical components having a specification value range in which. When an arbitrary logical component is selected on the list of logical components displayed on the terminal as a result of the search for the logical component requested from the terminal, a specification value that falls within the specification value range of the selected logical component is selected. Searching the database for a physical component and a virtual component having the same as a recommended component candidate for the logical component;
Displaying, on the terminal, a list of physical components and virtual components retrieved as recommended component candidates for the logical component,
When an arbitrary component is selected on the list of physical components and virtual components displayed as a recommended component candidate for the logical component and displayed on the terminal, the selected component is a recommended component corresponding to the logical component. Registering in the database as
When a recommended part search is requested by specifying an arbitrary logical part from the terminal, a step of searching a recommended part for the specified logical part from the database;
Displaying the list of the recommended parts retrieved on the terminal. When registering a logical component in the database, searching the database as a recommended component for a physical component and a virtual component having specification values falling within a specification value range of the logical component;
Registering a physical component and a virtual component searched as recommended components when registering the logical component in the database in the database in association with the logical component;
When any logical component is selected on the list of logical components displayed on the terminal as a result of the search for the logical component requested from the terminal, a recommended component corresponding to the selected logical component is selected from the database. Searching,
Displaying the list of the recommended parts retrieved on the terminal. In addition, the method further includes a step of displaying each component, which is an element of the product configuration registered in the database, on the terminal in a display form in which a component classification of the component can be identified in response to the product configuration display designation from the terminal. 10. The product design support method according to claim 9, wherein: On the computer,
According to the component registration designation from the terminal using the computer, a component constituting the product is specified as a logical component or a specification having a specification value with a range as a component attribute, and a specific component component attribute. A step of registering in the database which of the existing physical parts having the specification values or the specification is specified, and distinguishing which of the virtual parts which have the specific specification values as the part attributes but need to be developed, in the database;
When at least a specification value is specified from the terminal and a component search is requested, a step of searching the database for a component corresponding to the specified specification value,
Displaying a list of parts retrieved from the database on the terminal;
Registering, in the database, a product configuration composed of components registered in the database, designated by the terminal.

Images