JP2005301829A - Design support device, design support method and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a design support device etc., suitable for finding out the possibility of causing a defect in a design object at the design stage. <P>SOLUTION: An attribute storage part 202 stores members while making them correspond to attribute information, and a trouble storage part 203 stores the attribute information while making it correspond to trouble information of members having it; and an object storage part 204 stores object information specifying members constituting the design object and a proximity storage part 205 stores members in proximity which constitutes the design object while making them correspond to each other. An input reception part 206 receives input of a member of interest and an attention trouble acquisition part 208 acquires trouble information from attribute information of the member of interest; and a proximity trouble acquisition part 211 acquires trouble information from the attribute information of a member in proximity to the member of interest, and an output part 213 outputs the acquired trouble information. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a design support apparatus, a design support method, and a program for realizing these on a computer.

  Conventionally, a design support method using a computer such as a CAD / CAM (Computer Aided Design / Computer Aided Manufacturing) system has been proposed. On the other hand, in the design of various devices composed of a large number of parts, it is necessary to pay sufficient attention to whether the various parts and the devices that combine them meet the requirements. In such a situation, computer support is desired.

  On the other hand, it is difficult for humans to easily know at the design stage whether defects will occur when the prototype is actually prototyped and manufactured, and many years of experience and intuition are required to obtain such knowledge. I came.

  However, with today's diversified and complicated design objects, we do not rely on the experience and intuition of engineers, but rather share this as “knowledge” and use computers that use this knowledge at the design stage. A design support environment is required.

The inventors of the present application have made extensive efforts to propose SSM (Stress Strength Model) technology and continue to develop such a design support environment, and disclose the technology in the following documents.
JP 2003-281202 A

  In the present technology, various attributes such as the name, shape, material / material, and property of a member to be designed are hierarchized and classified into definition attributes and control attributes.

  Then, when the input receiving unit receives the input of the definition attribute name of the member to be designed, the definition attribute acquiring unit, the control attribute acquiring unit, and the stress acquiring unit obtain the strength value and the stress value from the definition attribute name. Get parameter names that can be used for calculation.

  Further, when the input receiving unit receives the input of the parameter value of the parameter name, the strength calculating unit calculates the strength value of the design target from the parameter value according to a predetermined calculation procedure, and the stress calculating unit The stress value given to the design object is calculated from the value by a predetermined calculation procedure.

  Finally, the comparison report unit compares the strength value with the stress value, and when this satisfies a predetermined condition, reports the defect report information associated therewith.

  However, there is a need for a technique for more appropriately acquiring information related to accumulated defects and presenting them to the designer for combinations of members that cause such defects.

  On the other hand, there may be cases where the more information about the defect, the better. Therefore, it is necessary to be able to narrow down appropriately according to the request of the designer.

  The present invention solves the above-described problems, and a design support apparatus, a design support method, and a computer that realize a suitable design support device for appropriately finding a possibility that a design target may be defective in a design stage. It aims at providing the program for.

  In order to achieve the above object, the following invention is disclosed in accordance with the principle of the present invention.

  A design support apparatus according to a first aspect of the present invention includes an attribute storage unit, a defect storage unit, a target storage unit, a proximity storage unit, an input reception unit, an attention attribute acquisition unit, an attention defect acquisition unit, a proximity acquisition unit, and a proximity attribute. An acquisition unit, a proximity defect acquisition unit, and an output unit are provided and configured as follows.

  That is, the attribute storage unit stores a member in association with attribute information representing an attribute of the member.

  On the other hand, the defect storage unit stores attribute information or a combination of attribute information in association with defect information indicating a defect that may occur when there is a member or member group having these.

  Further, the target storage unit stores target information for specifying a plurality of members constituting the design target.

  And a proximity memory | storage part matches and memorize | stores the thing which adjoins among the said some members which comprise the said design object.

  On the other hand, the input receiving unit receives an input for selecting one or a plurality of members of interest from the plurality of members constituting the design target.

  Further, the attention attribute acquisition unit stores attribute information (hereinafter referred to as “attention attribute”) stored in the attribute storage unit in association with one or more selected members (hereinafter referred to as “attention member”). get.

  Then, the attention defect acquisition unit acquires defect information (hereinafter referred to as “attention defect information”) stored in the defect storage unit in association with any of the acquired attention attributes or a combination thereof.

  On the other hand, the proximity acquisition unit is stored in the proximity storage unit as a member proximate to any of the members of interest, and acquires a member that is not the member of interest (hereinafter referred to as “proximity member”).

  Further, the proximity attribute acquisition unit acquires attribute information (hereinafter referred to as “proximity attribute”) stored in the attribute storage unit in association with the proximity member.

  The proximity defect acquisition unit stores defect information associated with a combination of any one or more of the acquired attention attributes and any one or more of the acquired proximity attributes and stored in the defect storage unit. (Hereinafter referred to as “proximity defect information”).

  On the other hand, the output unit outputs the acquired attention defect information and the acquired proximity defect information.

  A design support apparatus according to another aspect of the present invention includes an attribute storage unit, a defect storage unit, a target storage unit, an input reception unit, an attention attribute acquisition unit, an attention defect acquisition unit, an extended defect acquisition unit, and an output unit, The configuration is as follows.

  That is, the attribute storage unit stores a member in association with attribute information representing an attribute of the member.

  On the other hand, the defect storage unit stores attribute information or a combination of attribute information in association with defect information indicating a defect that may occur when there is a member or member group having these.

  The target storage unit stores target information for specifying a plurality of members constituting the design target.

  Further, the input receiving unit receives an input for selecting one or more members of interest from the plurality of members constituting the design target.

  On the other hand, the attribute-of-interest acquisition unit stores attribute information (hereinafter referred to as “target attribute”) stored in the attribute storage unit in association with one or more selected members (hereinafter referred to as “target member”). get.

  Then, the attention defect acquisition unit acquires defect information (hereinafter referred to as “attention defect information”) stored in the defect storage unit in association with any of the acquired attention attributes or a combination thereof.

  On the other hand, the extended defect acquisition unit is associated with a combination of one or more of the acquired attention attributes and one or more of the attribute information other than the acquired attention attribute and a predetermined number or less. Failure information stored in the storage unit (hereinafter referred to as “extended failure information”) is acquired.

  Furthermore, in the output process, the output unit outputs the acquired attention defect information and the acquired extended defect information.

  A design support method according to another aspect of the present invention includes an attribute storage unit, a defect storage unit, a target storage unit, a proximity storage unit, an input reception unit, an attention attribute acquisition unit, an attention defect acquisition unit, a proximity acquisition unit, and a proximity attribute acquisition. Is executed by a design support apparatus including a unit, a proximity defect acquisition unit, and an output unit, and includes an input reception process, a attention attribute acquisition process, a attention defect acquisition process, a proximity acquisition process, a proximity attribute acquisition process, a proximity defect acquisition process, and an output process. Prepare.

  Here, in the design support device, the attribute storage unit stores the member in association with attribute information representing the attribute of the member, and the defect storage unit stores the attribute information or the combination of the attribute information. The target storage unit stores target information for specifying a plurality of members constituting the design target in association with fault information indicating a fault that may occur when a member or a group of members is present. The proximity storage unit associates and stores adjacent members among the plurality of members constituting the design target.

  On the other hand, in the input receiving process, the input receiving unit receives an input for selecting one or more members of interest from the plurality of members constituting the design target.

  Furthermore, in the attention attribute acquisition step, the attention attribute acquisition unit is associated with the selected one or more members (hereinafter referred to as “target member”) and stored in the attribute storage unit (hereinafter referred to as “attention target”). Attribute ”)).

  In the attention defect acquisition step, the attention defect acquisition unit stores defect information (hereinafter referred to as “notice defect information”) stored in the defect storage unit in association with one of the acquired attention attributes or a combination thereof. get.

  On the other hand, in the proximity acquisition step, the proximity acquisition unit is stored in the proximity storage unit as a member that is close to any of the target members, and acquires a member that is not the target member (hereinafter referred to as “proximity member”).

  Further, in the proximity attribute acquisition step, the proximity attribute acquisition unit acquires attribute information (hereinafter referred to as “proximity attribute”) stored in the attribute storage unit in association with the proximity member.

  In the proximity defect acquisition step, the proximity defect acquisition unit is associated with a combination of any one or more of the acquired attention attributes and any one or more of the acquired proximity attributes. The defect information (hereinafter referred to as “proximity defect information”) is stored.

  Further, in the output step, the output unit outputs the acquired attention defect information and the acquired proximity defect information.

  A design support method according to another aspect of the present invention includes a design support including an attribute storage unit, a defect storage unit, a target storage unit, an input reception unit, a target attribute acquisition unit, a target defect acquisition unit, an extended fault acquisition unit, and an output unit. It is executed by the apparatus, and includes an input reception process, an attention attribute acquisition process, an attention defect acquisition process, and an extended defect acquisition process, and is configured as follows.

  Here, in the design support apparatus, the attribute storage unit stores a member in association with attribute information representing the attribute of the member, and the defect storage unit has attribute information or a combination of attribute information. The target storage unit stores target information for specifying a plurality of members constituting the design target in association with the fault information indicating a fault that may occur when there is a member or a member group.

  Further, in the input receiving step, the input receiving unit receives an input for selecting one or more members of interest from the plurality of members constituting the design target.

  On the other hand, in the attention attribute acquisition step, the attention attribute acquisition unit is associated with one or more selected members (hereinafter referred to as “target member”) and stored in the attribute storage unit (hereinafter referred to as “attention target”). Attribute ”)).

  In the attention defect acquisition step, the attention defect acquisition unit stores defect information (hereinafter referred to as “notice defect information”) stored in the defect storage unit in association with one of the acquired attention attributes or a combination thereof. get.

  On the other hand, in the extended defect acquisition step, the extended defect acquisition unit combines any one or more of the acquired attention attributes and any one or more of the attribute information other than the acquired attention attributes with a predetermined number or less. To obtain defect information (hereinafter referred to as “extended defect information”) stored in the defect storage unit.

  Furthermore, in the output process, the output unit outputs the acquired attention defect information and the acquired extended defect information.

  A program according to another aspect of the present invention is configured to cause a computer to function as the above-described design support apparatus, or to cause the computer to execute the above-described design support method.

  The above program can be recorded on various recording media such as CD-ROM (Compact Disk Read Only Memory) and FD (Flexible Disk), and can also be distributed via a computer communication network such as the Internet.

  According to the present invention, it is possible to provide a design support apparatus, a design support method, and a program for causing a computer to realize the design support apparatus and the computer, which are suitable for appropriately discovering the possibility of a problem or the like occurring in a design object at the design stage. Can do.

  Embodiments of the present invention will be described below with reference to the accompanying drawings.

(Outline configuration of information processing device)
FIG. 1 is a schematic diagram showing a schematic configuration of a typical information processing apparatus that can function as a design support apparatus of the present invention by processing a recording medium in which the data structure of the present invention is recorded. Hereinafter, a description will be given with reference to FIG.

  The information processing apparatus 101 is controlled by a CPU (Central Processing Unit) 102. When the information processing apparatus 101 is turned on, the CPU 102 executes an IPL (Initial Program Loader) stored in the ROM 103.

  The IPL reads and executes an OS (Operating System) program stored in a recording medium such as the hard disk 104, the FD attached to the FD drive 110, and the CD-ROM attached to the CD-ROM drive 111. It is a program.

  After starting the OS, the CPU 102 executes an application program stored in the hard disk or the like in accordance with a user instruction input with the keyboard 105 or the mouse 106 or in accordance with the contents of a setting file described in advance on the hard disk or the like. Execute.

  By executing the application program, the information processing apparatus 101 functions as a design support apparatus.

  Definition attributes, control attributes, strength information, stress information, and defect records are recorded on storage media such as the hard disk 104, FD mounted on the FD drive 110, and CD-ROM mounted on the CD-ROM drive 111. Become.

  The CPU 102 uses the RAM 107 as a temporary working storage area when executing this program. In addition, a register or a cache (not shown) provided in the CPU 102 is used as a temporary working storage area.

  As the program is executed, the CPU 102 can display the information on a display device 108 such as a liquid crystal display or a CRT (Cathode Ray Tube) in order to report a failure record to the user or to show the progress of the program. In the instruction operation using the mouse 106, the cursor displayed on the screen is moved by moving the mouse 106, and the menu item pointed to by the cursor can be selected by clicking the mouse 106.

  The information processing apparatus 101 can communicate with a computer communication network such as the Internet via an interface 109 such as a NIC (Network Interface Card) or a modem. Information about the design object received via the interface 109 can be processed, the processed defect record can be transmitted via the interface 109, and the program received via the interface 109 can be executed.

  In addition, various defect records are arranged on another computer, and the URL (Universal Resource Locator) of the defect record and a summary of the defect record are presented to the user. It is also possible to adopt a mode in which the details of the defect record are obtained from the URL.

(Basic configuration of design support device)
FIG. 2 is a schematic diagram showing a basic configuration of a design support apparatus used in one embodiment of the present invention. FIG. 3 is a flowchart showing a control flow of design support processing executed by the design support apparatus. Hereinafter, description will be given with reference to these drawings.

  The design support apparatus 201 according to the present embodiment includes an attribute storage unit 202, a defect storage unit 203, a target storage unit 204, a proximity storage unit 205, an input reception unit 206, an attention attribute acquisition unit 207, an attention defect acquisition unit 208, and proximity acquisition. A unit 209, a proximity attribute acquisition unit 210, a proximity defect acquisition unit 211, an extended defect acquisition unit 212, and an output unit 213.

  Here, the attribute memory | storage part 202 matches and memorize | stores a member in the attribute information showing the attribute which the said member has. For example, as disclosed in [Patent Document 1], it is possible to employ a method of storing various information about members in a hierarchical manner according to attributes such as definition attributes and control attributes.

Specifically, the following associations can be considered. In the following, the left side of... Is a member, and the right side is an example of an attribute of the member.
Member A ... Frame, steel, press working, anti-rust treatment member B ... Slide bearing, plastic, injection molded member C ... Shaft, SUS, polishing, heat treatment member D ... Washer, carbon member E ... E ring, spring steel (member F) ~ Member W is omitted)
Member X ... roller, rubber member Y ... sensor, ceramic, insulating material member Z ... gear, polyacetal

  The attribute information can be configured to have a hierarchical structure. For example, in the above example, the information is that the insulating material includes plastic and rubber. In addition, negative information can be added to the attribute information. For example, plastic is information such as “not rubber”.

  The defect storage unit 203 stores attribute information or a combination of attribute information in association with defect information indicating a defect that may occur when there is a member or member group having these. In this case, as disclosed in [Patent Document 1], it is possible to employ a method of storing various information about members in a hierarchical manner according to attributes such as definition attributes and control attributes.

Specifically, the following associations can be considered. In the following, the left side of ... is an example of information related to a problem that may occur in the attribute information (combination), and the right side is the attribute information (combination).
Combination of attributes: Described as definition attribute / control attribute / strength / stress / failure mode.
Insulating material & steel… Insulating material & steel / steel surface conductivity ↓ / Insulating material antistatic property ↓ / Insulating material sliding, environmental humidity ↓ / Insulating material charging Shaft & slide bearing… Shaft & slide bearing / Slide bearing wear coefficient ↑ / Abrasion resistance ↓ / Sliding speed ↑, Load ↑ / Abrasion (Large)

  Here, an example is shown in which two attributes are listed on the left side with & between them, but the number of attributes listed with & is arbitrary. If you want to specify only one attribute, & is 0.

  Also, & is used to express a combination of attributes of each member. The left side and right side of & are formed with the attributes of each member. As will be described later, “a set of attributes that a certain member has” may be placed on both sides of & as a combination of attributes.

These meanings are as follows.
If the insulating material and the steel are used at the same time, the surface conductivity of the steel is lowered and the antistatic property of the insulating material is lowered. In addition, there is a risk that the insulating material may be subjected to stress such as sliding or a decrease in environmental humidity. For this reason, the problem that an insulating material will be charged may arise.
If a shaft and a slide bearing are used at the same time, the wear coefficient of the slide bearing increases and the wear resistance decreases. In addition, there is a risk that the sliding speed may increase or the load may increase. For this reason, the problem that wear will become large may arise.

  On the other hand, the target storage unit 204 stores target information for specifying a plurality of members constituting the design target. That is, all the members constituting the design object that is about to be designed at present (or all the members that the designer has input so far) are stored. In the following, it is assumed that member A, member B, member C, member D, member E, member X, member Y, and member Z are stored.

  In addition, the proximity storage unit 205 stores the adjacent members among the plurality of members constituting the design object in association with each other. Here, “proximity” typically means a physical proximity, adjacency, fitting, coupling, or the like. For example, in addition to the relationship between the shaft and the bearing, the bolt and the nut, and the like, the relationship connected by various types of adhesion and welding is stored in the proximity storage unit 205. However, if other various “relationships” are stored in the proximity storage unit 205 as “close”, it is not necessarily limited to physical “proximity”, and various “relationships” can be handled as “proximity”.

  In the following, there is a proximity relationship between the five of member A, member B, member C, member D, and member E, and between member A-member X, member A-member Y, member E-member Z. , And are stored as having proximity relations.

  These attribute storage unit 202, defect storage unit 203, target storage unit 204, proximity storage unit 205 are RAM 107, HD 104, FD mounted on FD drive 110, CD-ROM mounted on CD-ROM drive 111, etc. It can be realized using.

  When the design support process is started, the input receiving unit 206 receives an input for selecting one or more members of interest from the plurality of members constituting the design target (step S301). Therefore, the keyboard 105 and the mouse 106 function as the input receiving unit 206 in cooperation with the CPU 102 and the display device 108.

  Hereinafter, the one or more members selected here are referred to as “members of interest”. Hereinafter, it is assumed that five members A, B, C, D, and E are selected as members of interest.

  Each unit described below is realized by the CPU 102 functioning in cooperation with the HD 104, the RAM 107, and the like.

  The attention attribute acquisition unit 207 acquires attribute information stored in the attribute storage unit 202 in association with one or more selected members (hereinafter referred to as “target member”) (step S302). The attribute information acquired here is hereinafter referred to as “attention attribute”.

  Since the member of interest is selected as described above, the attributes of interest are frame, steel, press working, rust prevention treatment, slide bearing, plastic, injection molding, shaft, SUS, polishing, heat treatment, washer, carbon, E-ring It becomes spring steel.

  The attention defect acquisition unit 208 acquires defect information stored in the defect storage unit 203 in association with one of the acquired attention attributes or a combination thereof (step S303). The defect information acquired here is hereinafter referred to as “attention defect information”.

  Examples of information acquired as noticeable defect information include "defects in the frame", "defects when using steel and SUS at the same time", "defects when using slide bearings, shafts, washers, and E-rings" simultaneously. is there. That is, various types of defects associated with one or more combinations of the target defects are extracted.

  Next, the proximity acquisition unit 209 acquires a member that is stored in the proximity storage unit 205 as a member that is close to any of the members of interest and is not the member of interest (step S304). The member acquired here is hereinafter referred to as “proximity member”.

  In the above example, since the member X and the member Y are close to the member A and the member Z is close to the member E, the member X, the member Y, and the member Z are acquired as the proximity members.

  Further, the proximity attribute acquisition unit 210 acquires attribute information associated with the proximity member and stored in the attribute storage unit 202 (step S305). The attribute information acquired here is hereinafter referred to as “proximity attribute”.

  Since the proximity member is acquired as described above, the proximity attributes are roller, rubber, sensor, ceramic, insulating material, gear, and polyacetal.

  Then, the defect stored in the defect storage unit is associated with the combination of any one or more of the acquired attention attributes and any one or more of the acquired proximity attributes. Information is acquired (step S306). The defect information acquired here is hereinafter referred to as “proximity defect information”.

  Here, the proximity defect information is defect information obtained by “expanding” the attention member selected by the user to the proximity member using the fact that the attention member and the proximity member are in “proximity”. Therefore, in order to prevent excessive “extension” and obtain an appropriate number of pieces of defect information, any one or more of the acquired attention attributes and any one or more of the acquired proximity attributes Only the information associated with the combination is used as proximity defect information.

  In addition, the extended defect acquisition unit 212 supports a combination of any one or more of the acquired attention attributes and any one or more of the attribute information other than the acquired attention attributes. The defect information attached and stored in the defect storage unit is acquired (step S307). The defect information acquired here is hereinafter referred to as “extended defect information”.

  Here, the expanded defect information is defect information obtained when “expanding” is performed assuming that any other member is added to the target member. Therefore, in order to prevent excessive “expansion” and obtain an appropriate number of defect information, only those obtained by limiting the number of other members to be added to “below the predetermined number” are expanded. It is defect information.

  Finally, the output unit 213 outputs various types of defect information acquired so far (step S308), and the process ends.

  In this way, the user can appropriately acquire defect information related only to the member group that he / she is currently interested in, as well as defect information that is highly likely to be related to the defect information. It is possible to appropriately limit the number of defect information to be performed.

  Note that the process related to acquisition of proximity defect information and the process related to acquisition of extended defect information may be omitted as appropriate.

  Further, in the above embodiment, the attention attribute and the proximity attribute are configured flat, but as mentioned in the above embodiment, for example, the attention attribute is “frame, steel, press working, rust prevention treatment”, “slide bearing, plastic, Acquired together in the original combination, such as "Injection molding", "Shaft, SUS, Polishing, Heat treatment", "Washer, Carbon", "E-ring, Spring steel". A combination of the collected materials “insulating material” and “gear and polyacetal” may be prepared in association with the defect information.

The information regarding the defect in such a case can be expressed as follows, for example.
Frame, steel & slide bearing, plastic ... frame, steel, press-fit hole & slide bearing, plastic, press-fit / slide bearing wall thickness ↓ / slide bearing plastic deformation strength ↓ / pressure input to plastic ↑ / plastic deformation of slide bearing The meaning is as follows.

  The simultaneous use of the “steel frame” and the “plastic slide bearing” corresponds to press-fitting a plastic slide bearing into the press-fitting hole of the steel frame. In this case, the thickness of the slide bearing decreases, and the plastic deformation strength of the slide bearing decreases. In addition, there is a risk that the pressure input to the plastic will increase. For this reason, the problem that a slide bearing may be plastically deformed may arise.

  Also in the case of the configuration of the attention attribute as described above, it matches the information regarding the above-mentioned defect. This is because the attribute groups on both sides of & are a subset of each attribute group of the member of interest. The failure information that “the slide bearing may be plastically deformed” is output.

  As described above, according to the present invention, a design support apparatus, a design support method, and a computer for realizing the design support apparatus suitable for appropriately finding out the possibility of a defect or the like occurring in the design object at the design stage. And can be applied to fields such as CAD / CAM.

It is a schematic diagram which shows schematic structure of an information processing apparatus. It is a mimetic diagram showing the basic composition of the design support device concerning one embodiment of the present invention. It is a flowchart which shows the flow of control of the design assistance process performed with the design assistance apparatus which concerns on one Embodiment of this invention.

Explanation of symbols

101 Information processing apparatus 102 CPU
103 ROM
104 HD
105 Keyboard 106 Mouse 107 RAM
DESCRIPTION OF SYMBOLS 108 Display apparatus 109 Interface 110 FD drive 111 CD-ROM drive 201 Design support apparatus 202 Attribute storage part 203 Defect storage part 204 Target storage part 205 Proximity storage part 206 Input reception part 207 Attention attribute acquisition part 208 Attention defect acquisition part 209 Proximity acquisition Unit 210 proximity attribute acquisition unit 211 proximity defect acquisition unit 212 extended defect acquisition unit 213 output unit

Claims (6)

An attribute storage unit for storing a member in association with attribute information representing an attribute of the member;
A defect storage unit that stores attribute information or a combination of attribute information in association with defect information that indicates a defect that may occur when there is a member or a group of members having these,
A target storage unit that stores target information for specifying a plurality of members constituting the design target;
Among the plurality of members constituting the design object, a proximity storage unit that associates and stores adjacent ones,
An input receiving unit that receives an input for selecting one or more members of interest from the plurality of members constituting the design object;
Attention attribute acquisition unit that acquires attribute information (hereinafter referred to as “attention attribute”) stored in the attribute storage unit in association with the selected one or more members (hereinafter referred to as “attention member”). ,
An attention defect acquisition unit that acquires defect information (hereinafter referred to as “notice defect information”) stored in the defect storage unit in association with any one or a combination of the acquired attention attributes;
A proximity acquisition unit that acquires a non-target member (hereinafter referred to as a “proximity member”) that is stored in the proximity storage unit as a member that is close to any of the target members;
A proximity attribute acquisition unit that acquires attribute information (hereinafter referred to as “proximity attribute”) stored in the attribute storage unit in association with the proximity member;
Defect information (hereinafter, “proximity defect”) stored in the defect storage unit in association with a combination of any one or more of the acquired attention attributes and one or more of the acquired proximity attributes Proximity defect acquisition unit that acquires "information"),
A design support apparatus comprising: an output unit that outputs the acquired attention defect information and the acquired proximity defect information. An attribute storage unit for storing a member in association with attribute information representing an attribute of the member;
A defect storage unit that stores attribute information or a combination of attribute information in association with defect information that indicates a defect that may occur when there is a member or a group of members having these,
A target storage unit that stores target information for specifying a plurality of members constituting the design target;
An input receiving unit for receiving an input for selecting one or more members of interest from the plurality of members constituting the design object;
Attention attribute acquisition unit that acquires attribute information (hereinafter referred to as “attention attribute”) stored in the attribute storage unit in association with the selected one or more members (hereinafter referred to as “attention member”). ,
An attention defect acquisition unit that acquires defect information (hereinafter referred to as “notice defect information”) stored in the defect storage unit in association with any one or a combination of the acquired attention attributes;
Corresponding to a combination of any one or more of the acquired attention attributes and any one or more of attribute information other than the acquired attention attributes and stored in the defect storage unit Extended defect acquisition unit for acquiring the defect information (hereinafter referred to as “extended defect information”),
A design support apparatus comprising: an output unit that outputs the acquired attention defect information and the acquired extended defect information. Design support including attribute storage unit, defect storage unit, target storage unit, proximity storage unit, input reception unit, attention attribute acquisition unit, attention defect acquisition unit, proximity acquisition unit, proximity attribute acquisition unit, proximity defect acquisition unit, output unit A design support method executed by an apparatus,
In the design support apparatus, the attribute storage unit stores a member in association with attribute information representing an attribute of the member, and the defect storage unit has attribute information or a combination of attribute information. The target storage unit stores target information for specifying a plurality of members constituting the design target, and the proximity storage unit stores the target information for identifying a plurality of members constituting the design target. , Among the plurality of members constituting the design object, store the adjacent ones in association with each other,
An input receiving step in which the input receiving unit receives an input for selecting one or a plurality of members of interest from the plurality of members constituting the design object;
Attribute information (hereinafter referred to as “attention attribute”) stored in the attribute storage section in association with the selected one or more members (hereinafter referred to as “attention member”). Attention attribute acquisition process to acquire,
The attention defect acquisition unit that acquires defect information (hereinafter referred to as “notice defect information”) stored in the defect storage unit in association with any one or a combination of the acquired attention attributes. Process,
A proximity acquisition step in which the proximity acquisition unit acquires a non-target member (hereinafter referred to as a “proximity member”) that is stored in the proximity storage unit as a member that is close to any of the target members;
A proximity attribute acquisition step in which the proximity attribute acquisition unit acquires attribute information (hereinafter referred to as “proximity attribute”) stored in the attribute storage unit in association with the proximity member;
The proximity defect acquisition unit is stored in the defect storage unit in association with a combination of any one or more of the acquired attention attributes and one or more of the acquired proximity attributes. Proximity defect acquisition process for acquiring defect information (hereinafter referred to as “proximity defect information”),
The design support method, wherein the output unit comprises an output step of outputting the acquired attention defect information and the acquired proximity defect information. A design support method executed by a design support apparatus including an attribute storage unit, a defect storage unit, a target storage unit, an input reception unit, an attention attribute acquisition unit, an attention defect acquisition unit, an extended defect acquisition unit, and an output unit,
In the design support apparatus, the attribute storage unit stores a member in association with attribute information representing an attribute of the member, and the defect storage unit has attribute information or a combination of attribute information. Store in association with defect information representing a defect that may occur when there is a member or member group, the target storage unit stores target information for specifying a plurality of members constituting the design target,
An input receiving step in which the input receiving unit receives an input for selecting one or a plurality of members of interest from the plurality of members constituting the design object;
Attribute information (hereinafter referred to as “attention attribute”) stored in the attribute storage section in association with the selected one or more members (hereinafter referred to as “attention member”). Attention attribute acquisition process to acquire,
The attention defect acquisition unit that acquires defect information (hereinafter referred to as “notice defect information”) stored in the defect storage unit in association with any one or a combination of the acquired attention attributes. Process,
The extended defect acquisition unit is associated with a combination of any one or more of the acquired attention attributes and any one or more of the attribute information other than the acquired attention attributes. An extended defect acquisition step of acquiring defect information (hereinafter referred to as “extended defect information”) stored in the defect storage unit;
The design support method, wherein the output unit includes an output step of outputting the acquired attention defect information and the acquired extended defect information. Computer
An attribute storage unit for storing a member in association with attribute information representing an attribute of the member;
A defect storage unit that stores attribute information or a combination of attribute information in association with defect information that represents a defect that may occur when there is a member or group of members having these,
A target storage unit that stores target information for specifying a plurality of members constituting the design target;
Among the plurality of members constituting the design object, a proximity storage unit that associates and stores adjacent ones,
An input receiving unit that receives an input for selecting one or more members of interest from the plurality of members constituting the design object;
Attention attribute acquisition unit that acquires attribute information (hereinafter referred to as “attention attribute”) stored in the attribute storage unit in association with the selected one or more members (hereinafter referred to as “attention member”). ,
An attention defect acquisition unit that acquires defect information (hereinafter referred to as “notice defect information”) stored in the defect storage unit in association with any one or a combination of the acquired attention attributes;
A proximity acquisition unit that acquires a non-target member (hereinafter referred to as a “proximity member”) that is stored in the proximity storage unit as a member that is close to any of the target members;
A proximity attribute acquisition unit that acquires attribute information (hereinafter referred to as “proximity attribute”) stored in the attribute storage unit in association with the proximity member;
Defect information (hereinafter, “proximity defect”) stored in the defect storage unit in association with a combination of any one or more of the acquired attention attributes and one or more of the acquired proximity attributes Proximity defect acquisition unit that acquires "information"),
A program that functions as an output unit that outputs the acquired attention defect information and the acquired proximity defect information. An attribute storage unit for storing a member in association with attribute information representing an attribute of the member;
A defect storage unit that stores attribute information or a combination of attribute information in association with defect information that represents a defect that may occur when there is a member or group of members having these,
A target storage unit that stores target information for specifying a plurality of members constituting the design target;
An input receiving unit that receives an input for selecting one or more members of interest from the plurality of members constituting the design object;
Attention attribute acquisition unit that acquires attribute information (hereinafter referred to as “attention attribute”) stored in the attribute storage unit in association with the selected one or more members (hereinafter referred to as “attention member”). ,
An attention defect acquisition unit that acquires defect information (hereinafter referred to as “notice defect information”) stored in the defect storage unit in association with any one or a combination of the acquired attention attributes;
Corresponding to a combination of any one or more of the acquired attention attributes and any one or more of the attribute information other than the acquired attention attributes and stored in the defect storage unit Extended defect acquisition unit for acquiring the defect information (hereinafter referred to as “extended defect information”),
A program that functions as an output unit that outputs the acquired attention defect information and the acquired extended defect information.

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