JP2013200884A - Building design support system and building design support program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a welfare-oriented building design support system and a welfare-oriented building design support server, for easily and automatically providing welfare-oriented renovation design information or risk evaluation from present design information and resident information.SOLUTION: A welfare-oriented building design support system (100) comprises: a design information storage part (152) for storing resident information and design information associated thereto; a drawing information acquisition part (112) for acquiring drawing information of a building; a resident information acquisition part (114) for acquiring the resident information; and a drawing correction part (116) for extracting the design information corresponding to the resident information, and customizing the drawing information on the basis of the extracted design information.

Description

  The present invention relates to an architectural design support system and an architectural design support program.

In architectural design such as renovation, a field survey of the target property is an indispensable matter, which takes time and effort. For example, in a conventional business model for renovation design, a person in charge first performs a field survey to acquire current building information such as necessary dimensions and floor plans. After that, it was a time-consuming process to return to the company, create a renovation plan from the current building information, and go to the site again to make proposals to the owner. As a conventional technique for improving these, a technique has been proposed in which a notebook computer or a scanner is carried, local information is sent to a company server or the like, and a design drawing is obtained (for example, refer to Patent Document 1).
JP 2005-301358 A

  However, with the above-described prior art, it is possible to easily acquire the current building information, but the actual remodeling design still needs to be performed manually. When a designer manually performs a renovation design, it usually takes several days. In particular, in today's aging society, the importance of welfare renovation and welfare architecture for elderly people and people with disabilities is increasing. As a welfare-related qualification, there is a welfare living environment coordinator, and there are approximately 370,000 general qualified persons. Such welfare specialists and designers often perform remodeling design for welfare based on experience and knowledge. However, this is a manual design work, and it takes time and effort.

  Simplification and automation of such reform design itself are urgent issues. For example, it is convenient if it is possible to immediately propose reform design information for welfare to a user who visits a house exhibition hall or the like, but such a design support system has not been developed.

  Since there is no mechanism for providing easy and speedy welfare reform design information to users, it can be said that a considerable number of potential users are hesitant to place orders for reform designs. In Japan, the aging population is declining and the number of potential users of welfare renovation design is increasing. Therefore, even if there are a large number of potential users, there is no sufficient architectural design support system for welfare, so the company side loses sales opportunities, while the user side is easy to live and safe welfare. It will not be possible to get a housing for.

  In remodeling design for welfare, it is important that individual users can live most easily, but in conventional designs, depending on the designer, handrails are added uniformly without considering the individual attributes of users, or more than necessary. In many cases, the corridor is widened and the area of the toilet is increased. However, depending on the user's attributes and buildings, handrails may not be required at all, or the living space may be excessively pressed due to an increase in the hallway width. Therefore, as described above, the remodeling design that does not take into account the attributes of individual users cannot guarantee that the user can easily live and obtain a safe welfare home.

  Therefore, the present invention provides a building design support system and a building design support program for welfare that simply and automatically provide remodeling design information and risk assessment for welfare from current design information and / or resident information. With the goal.

In order to solve the problems described above, the architectural design support system (apparatus) for welfare according to the first invention is:
A design information storage unit for storing resident information and design information associated therewith (in the case of occupant information as a wheelchair user, the recommended corridor width, the minimum turning radius at the entrance and the corridor corner, etc.);
A drawing information acquisition unit for acquiring building drawing information;
A resident information acquisition unit for acquiring resident information of the building;
A design correction unit that extracts design information corresponding to the resident information from the design information storage unit and customizes the drawing information based on the extracted design information;
With
Preferably, the system further includes a display unit that displays two-dimensionally or three-dimensionally (that is, as a plan view or a three-dimensional view) based on the customized drawing information.
In this specification, the term “building” includes a work or an accessory (partition, stairs, built-in furniture, ceiling, floor, opening frame, sill, etc.) integrated with a building (roof, pillar, foundation, etc.). Tub etc.).

Moreover, the architectural design support system (apparatus) for welfare according to the second invention is:
The design information is
Dimensional information (such as corridor width according to the illness of the resident information and the degree of disability, bathroom step, step difference between the corridor and room, step allowance and step, recommended height of kitchen work surface), It is at least one of arrangement information (position of switch, arrangement capable of securing a flow line, lighting position, etc.) and facility information (emergency contact button of a bathroom or toilet, handrail, safety cushion, etc.) And

Moreover, the architectural design support system (apparatus) for welfare according to the third invention is:
The resident information is
Residents' qualification information, resident physical information (weight, height, handicap location, degree of disability, etc.), resident medical history, care equipment used (cane, wheelchair, etc.), and residence Including at least one of the person's current illnesses,
It is characterized by that.

Moreover, the architectural design support system (apparatus) for welfare according to the fourth invention is:
Further comprising a public auxiliary information storage unit for storing public auxiliary information,
The drawing correction unit includes:
Customizing the drawing information based on public auxiliary information stored in the public auxiliary information storage unit;
It is characterized by that.
Preferably, a location (for example, a member such as a handrail) to which public assistance is applied in drawing information (for example, original drawing information or customized drawing information) and / or its amount (reduction amount, etc.) , Output auxiliary conditions (annual income limit, age limit, degree of care certification, etc.) (or display on the display).

Moreover, the architectural design support system (apparatus) for welfare according to the fifth invention is:
It further includes a receiving unit that receives public auxiliary information from a welfare subsidy information server (such as a Ministry of Health, Labor and Welfare server or a private server that distributes welfare related information)
The public auxiliary information storage unit updates the stored public auxiliary information with the received public auxiliary information.
It is characterized by that.

Moreover, the architectural design support system (apparatus) for welfare according to the sixth invention is:
A construction unit price storage unit for storing construction unit price information;
A construction extraction unit that extracts all necessary construction elements and members based on drawing information before customization and customized drawing information;
Based on the extracted construction elements and members, referring to construction unit price information stored in the construction unit price storage unit, an estimate generation unit that generates a construction estimate,
It is characterized by further comprising.
Preferably, the construction estimate is output from the output unit (or displayed on the display unit).

Moreover, the architectural design support system (apparatus) for welfare according to the seventh invention is:
Hazard sources by building design information (5mm or less sill, 5mm to 1cm sill, height difference between bathroom and bathtub less than 50cm, 50cm or more, hallway width less than 60cm, 80cm or more, presence or absence of partition ledges, Risks for which risk assessment information (severity, frequency of occurrence, impact, etc. of bruises, fractures, cuts, etc. due to stumbling or wobbling) is specified, including concrete walls, wood walls, elastic walls, etc. A risk storage unit for storing an evaluation master table;
Based on the initial drawing information of the building acquired by the drawing information acquisition unit and the drawing information customized by the drawing correction unit, each member and / or in the original drawing information is referred to the risk assessment master table. A risk assessment unit for obtaining a risk assessment of the position and a risk assessment of each member and / or position in the customized drawing information;
It is characterized by comprising.
Preferably, a difference in risk evaluation before and after customization is obtained, and further, this evaluation difference is displayed on the display unit.

Moreover, the architectural design support system (apparatus) for welfare according to the eighth invention is:
At least a part of the risk assessment information is defined for each element of resident information,
The risk assessment unit refers to the risk assessment master table on the basis of the drawing information of the place, the customized drawing information, and the resident information acquired by the resident information acquisition unit. Obtaining a risk assessment of each member and / or position and a risk assessment of each member and / or position in the customized drawing information,
Architectural design support system for welfare characterized by this.
Preferably, the difference between the risk evaluations before and after customization is obtained and further displayed on the display unit.

Moreover, the architectural design support system (apparatus) for welfare according to the ninth invention is:
A risk storage unit that stores a risk assessment master table in which risk sources by building design information and risk assessment information associated therewith are defined;
A drawing information acquisition unit for acquiring building drawing information;
Based on the drawing information of the building acquired by the drawing information acquisition unit, referring to the risk evaluation master table, a risk evaluation unit for obtaining a risk evaluation of each member and / or position in the drawing information;
If there is a member and / or position that has a risk assessment above the specified value, the member and / or position is visually highlighted along with the risk assessment (eg, hatched, changed color, blinking). A display unit;
It is characterized by comprising.

Moreover, the architectural design support system (apparatus) for welfare according to the tenth invention is:
A design information storage unit for storing resident information and design information associated therewith,
A resident information acquisition unit for acquiring resident information of the building, and
At least a part of the risk assessment information is defined for each element of resident information,
The risk assessment unit
Based on the drawing information and the resident information, referring to the risk evaluation master table and the design information storage unit, a risk evaluation of each member and / or position in the drawing information is obtained.
It is characterized by that.

Moreover, the architectural design support server (apparatus) for welfare according to the eleventh invention is:
A design information storage unit for storing resident information and design information associated therewith (in the case of occupant information as a wheelchair user, the recommended corridor width, the minimum turning radius at the entrance and the corridor corner, etc.);
A drawing information acquisition unit for acquiring building drawing information from a client computer;
A resident information acquisition unit for acquiring resident information of the building from the client computer;
A design correction unit that extracts design information corresponding to the resident information from the design information storage unit and customizes the drawing information based on the extracted design information;
A transmission unit for transmitting the customized drawing information to the client computer;
With

  As described above, the solution of the present invention has been described as a system or a server (apparatus). However, the present invention can also be realized as a method, a program, and a storage medium storing the program. It should be understood that these are included in the scope of the present invention. In addition, each step of the following method and program uses an arithmetic processing unit such as a CPU or DSP as necessary in data processing, and the input data, processed / generated data, etc. are stored in the HDD, It is stored in a storage device such as a memory.

  According to the present invention, a building design support system for welfare and a building design support server for welfare that provide easy and automatic renovation design information and risk assessment for welfare from current design information and / or resident information are provided. It becomes possible to do.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing an overview of a building design support system for welfare according to an embodiment of the present invention. As shown in the figure, the architectural design support system (server) 100 includes a control unit (CPU) 110, an input unit 120, an output unit 130, a communication unit 140, a storage unit 150, and a display unit 160. . The control unit 110 includes a drawing information acquisition unit 112 that acquires drawing information of a building, a resident information acquisition unit 114 that acquires resident information of the building, and a design information storage unit that stores design information corresponding to the resident information. And a drawing correction unit 116 that customizes drawing information based on the extracted design information. The storage unit 150 stores in advance resident information and design information associated therewith (in the case of occupant information as a wheelchair user, the recommended corridor width, the minimum turning radius at the entrance and the corridor corner, etc.). The design information storage unit 152 is included. Table 1 exemplifies resident information and design information associated therewith. For example, resident information “bedridden” is associated with “installation of bathtub for assistance bathing” and “installation of seat shower”. Drawing information (design information) to be output or displayed is preferably in the form of CAD data. The drawing information acquisition unit 112 typically acquires CAD data as building drawing information, but may be data in other formats. For example, handwritten raster data and data in the form of related information such as dimension information may be converted into CAD data using a known vector analysis means. In this case, the drawing information acquisition unit 112 includes a vector conversion unit (not shown) having a vector conversion function.

  Therefore, when the resident information “bedridden” is acquired, the design information “installation of bathing bath for assistance bath” and “installation of seat shower” are read with reference to Table 1 using “bedridden” as a keyword. It is done. This system checks whether the design information “installation of bathtub for assistance bath” and “installation of seat shower” can be applied to the drawing information of the target building (that is, applied) and can be applied (that is, not yet applied). If applicable, the drawing information is customized. Drawing information (design information) to be output or displayed is preferably in the form of CAD data. If CAD data is used, the user can edit CAD data freely as he or she desires thereafter, which is convenient.

  The communication unit 140 is connected to a network NET such as the Internet, and can send and receive data to and from remote terminals PC1, PC2, mobile terminal PDA1, mobile phone terminal MS1, etc. via the network NET. The architectural design support system 100 can also function as an ASP (Application Service Provider) architectural design support server. For example, the communication unit 140 acquires data (building drawing information and resident information) from the terminal PC1 via the network NET, and returns a processing result (such as customized drawing information) to the terminal PC1. The output unit 130 can output the corrected drawing and various data to the printer PRN or to an external display (not shown).

  FIG. 2 is a flowchart showing an example of processing executed by the building design support system of FIG. As shown in FIG. 2, in step S <b> 11, the drawing information acquisition unit 112 acquires drawing information of the target building. CAD data is suitable for the drawing information, and it is suitable that each member or element has a name (door, sliding door, hallway, Japanese-style room, kitchen sink, toilet, Western-style toilet) and dimensions added. . Note that the target building is usually a current building before customization (reform), but it may be only undrawn drawing information. Next, in step S12, the resident information acquisition unit 114 acquires resident information of the target building. Moreover, you may acquire the drawing information and resident information of a building via the drawing input part 120. FIG.

  In step S <b> 13, the drawing correction unit 116 extracts design information corresponding to the resident information from the design information storage unit 152. In step S14, the drawing information is customized based on the extracted design information. Finally, in step S15, based on the customized drawing information, the building drawing customized two-dimensionally or three-dimensionally is displayed on the display unit 160. Alternatively, the output unit 130 may print (output) to the externally connected printer PRN.

  FIG. 3 is a block diagram showing an outline of a building design support system for welfare according to an embodiment of the present invention. The architectural design support system 200 in the present embodiment includes each part having the same name and function as the architectural design support system 100 shown in the first embodiment. That is, the architectural design support system 200 includes a control unit (CPU) 210, an input unit 220, an output unit 230, a communication unit 240, a storage unit 250, and a display unit 260. The control unit 210 includes a drawing information acquisition unit 212, a resident information acquisition unit 214, and a drawing correction unit 216. The storage unit 250 includes a design information storage unit 252.

  In addition to these units, the architectural design support system 200 further includes a public auxiliary information storage unit 254 in the storage unit 250. The public auxiliary information storage unit 254 stores public auxiliary information including a subsidy system such as a national or local government. Based on the public auxiliary information stored in the public auxiliary information storage unit 254, the drawing correction unit 216 checks whether or not there is a part applicable to the target building, and there is an applicable part. If you want to customize the drawing information. The system 200 is a part (for example, a member such as a handrail) to which public assistance is applied in drawing information (for example, original drawing information or customized drawing information) and / or its amount (reduction amount, etc.). ) Is output from the output unit 230 or displayed on the display unit 260. The communication unit (reception unit) 240 is regularly updated (for example, monthly or weekly) with at least one welfare subsidy information server (Ministry of Health, Labor and Welfare, a private server that distributes welfare-related information, etc.) The auxiliary information is received, and the public auxiliary information storage unit 254 updates the stored public auxiliary information with the received public auxiliary information. Public assistance is often updated to a new assistance system, but according to this configuration, it is possible to always provide a reform proposal based on the latest public assistance system.

  FIG. 4 is a block diagram showing an overview of a building design support system for welfare according to an embodiment of the present invention. The architectural design support system 300 according to the present embodiment includes each part having the same name and function as the architectural design support systems 100 and 200 shown in the first and second embodiments. Only the configuration / process to be added / changed will be described. That is, the architectural design support system 300 includes a control unit (CPU) 310, an input unit 320, an output unit 330, a communication unit 340, a storage unit 350, and a display unit 360. The control unit 310 includes a drawing information acquisition unit 312, a resident information acquisition unit 314, and a drawing correction unit 316. The storage unit 350 includes a design information storage unit 352 and a public auxiliary information storage unit 354.

  In addition to these units, the control unit 310 of the architectural design support system 300 includes a construction extraction unit 317 that extracts all necessary construction elements and members based on drawing information before customization and customized drawing information, An estimate generation unit 318 that generates an estimate is further provided. The construction extraction unit 317 is based on the drawing information before customization and the customized drawing information, or based on the customized drawing information and the change place indicator included in the customized drawing information (the construction elements and members). : In the case of handrail installation work, extract reinforcing plates, handrails, etc. in the wall). Based on the extracted construction elements and members, the estimate generation unit 318 stores the construction unit price information stored in the construction unit price storage unit (for example, the amount of money is 70,000 yen as a member cost with a handrail 1 m, the construction cost is 50,000 yen, etc. ) To generate a construction estimate. The output unit 330 functions as an estimate output unit and outputs the generated construction estimate. Alternatively, the display unit 360 may function as an estimate output unit, and the construction estimate may be displayed on the display unit. The storage unit 350 further includes a construction unit price storage unit 356 that stores construction unit price information. Table 2 shows construction unit price information.

  FIG. 5 is a flowchart showing an example of processing executed by the architectural design support system of FIG. Step S21-24 in the flowchart in the present embodiment is the same as step S11-14 in the flowchart shown in the first embodiment, and the description thereof will be omitted, and only processing that is added / changed in the present embodiment will be described. As shown in FIG. 5, in step S25, the construction extraction unit 317 extracts all necessary construction elements and members based on the drawing information before customization and the customized drawing information. Next, in step S26, a construction estimate is generated by referring to the construction unit price information stored in the construction unit price storage unit based on the extracted construction elements and members by the estimate generation unit. Finally, in step S27, the display unit 360 or the output unit 330 displays a building drawing based on the customized drawing information, and further displays a construction estimate.

  FIG. 6 is a block diagram showing an outline of a building design support system for welfare according to an embodiment of the present invention. Since the architectural design support system 400 in this embodiment includes each part having the same name and function as the architectural design support systems 100, 200, and 300 shown in the first, second, and third embodiments, the description thereof is omitted. Only the configuration and processing added / changed in the present embodiment will be described. That is, the architectural design support system 400 includes a control unit (CPU) 410, an input unit 420, an output unit 430, a communication unit 440, a storage unit 450, and a display unit 460. The control unit 410 includes a drawing information acquisition unit 412, a resident information acquisition unit 414, a drawing correction unit 416, a construction extraction unit 417, and an estimate generation unit 418. The storage unit 450 includes a design information storage unit 452, a public auxiliary information storage unit 454, and a construction unit price storage unit 456.

  In addition to these units, the control unit 410 of the architectural design support system 400 further includes a risk evaluation unit 419. The storage unit 450 further includes a risk storage unit 458. Risk storage unit 458 is a risk source for each building design information (5 mm or less sill, 5 mm to 1 cm sill, height difference between bathroom and bathtub less than 50 cm, 50 cm or more, hallway width less than 60 cm, 80 cm or more, partition (Such as the presence or absence of bulges, concrete walls, wood walls, and elastic walls) and associated risk assessment information (severity such as stumbling or wobbling, severity of fractures, cuts, frequency of occurrence, impact, etc.) Is stored in advance. The risk evaluation unit 419 refers to the risk evaluation master table based on the original drawing information of the building acquired by the drawing information acquisition unit 412 and the drawing information customized by the drawing correction unit 416, and the initial drawing information The risk evaluation of each member and / or position in, and the risk evaluation of each member and / or position in the customized drawing information are respectively obtained. Further, the risk evaluation unit 419 can obtain the risk evaluation (value) by further considering the resident information. Preferably, a difference in risk evaluation before and after customization is obtained, and further, this evaluation difference is displayed on the display unit. By this evaluation difference, the user can easily grasp how much reform has contributed to risk reduction. Table 3 shows an example of the risk assessment master table. In this table, risk evaluation information by resident information is shown. As shown in the table, risk sources by risk building design information and risk evaluation information associated therewith are defined.

  Depending on the resident information such as whether the resident is using a wheelchair or having difficulty walking, the risk received from the same danger source also varies. According to the present invention, it is possible to provide risk assessment and renovation design information in accordance with the actual situation based on such resident attribute information. Moreover, although the risk level and the self-occurrence frequency are evaluated in three stages of large, medium, and small, it is also possible to evaluate at an arbitrary stage or evaluate numerically. Simply stipulate that large = 7, medium = 5, and small = 1, and sum the numerical values of the relevant hazards, and subtract the total value before and after customization (reform). Can be easily obtained. Further, for walking difficulty, the walking difficulty level may be set to 1-5 (1 is the most difficult, 5 is the light difficulty), and the risk level and the self-occurrence frequency may be set for each walking difficulty level. Similarly, body weight, height, disability, etc. are weight levels 1-5 (1 is the heaviest, 5 is the lightest), height levels 1-5 (1 is the tallest, 5 is the shortest), disability levels 1- 5 (1 is the most severe, 5 is the least), and the risk level and self-occurrence frequency may be set for each level. Thus, it is possible to provide a remodeling design more suitable for the resident by subdividing the level and difficulty level of the resident information.

  FIG. 7 is a flowchart showing an example of processing executed in the architectural design support system of FIG. As shown in FIG. 7, in step S <b> 31, the drawing information acquisition unit 412 acquires drawing information of the target building. In step S32, the risk evaluation unit 419 obtains a risk evaluation (value) based on the acquired drawing information. Finally, in step S33, if there is a member and / or position that is all of the obtained risk evaluations, or a risk evaluation that exceeds the specified value, the members and / or positions are visually displayed together with the risk evaluation. To highlight. The specified value can be changed according to the user's request. If the specified value is set low, the number of parts and parts to be reformed will increase. Conversely, if the specified value is set high, it should be reformed. A member and a location will be limited.

  FIG. 10 is a diagram showing a screen interface example generated by the process of FIG. 7 and displaying the risk evaluation, the member, and the position visually emphasized. In this embodiment, it is possible to present a screen that allows the user to immediately grasp the dangerous part or member of his / her house, its position, and even the degree of risk (danger). It becomes. As shown in the figure, in the drawing field D1, a current building before customization and a location (high risk assessment / dangerous location) where the risk assessment in the building is high are presented. In the risk assessment field R1, the risk assessment obtained for the current building prior to customization is displayed with italic font and background in shades of the specified value (standard) or more. The user who sees this can smoothly make a decision to order a reform. The public assistance field PS is a field for informing members and positions to which public assistance can be applied. In this example, the bathroom and the amount of assistance are described. In addition, the word “auxiliary” is also displayed in the bathroom of the screen field D1 so that the user can easily understand the place where public assistance can be received.

  FIG. 8 is a flowchart showing an example of processing executed by the architectural design support system of FIG. As shown in FIG. 8, in step S41, the drawing information acquisition unit 412 acquires drawing information of the target building. Next, in step S42, the resident information acquisition unit 414 acquires resident information of the target building. Further, the drawing information and resident information of the building may be acquired via the drawing input unit 420. In step S43, the risk evaluation unit 419 calculates a risk evaluation based on the drawing information and the resident information. That is, a risk evaluation that considers the user attributes (medical history, care status, degree of disability, care equipment used, etc.) as resident information is obtained. Finally, in step S44, if there is a member and / or position that is all of the obtained risk assessments, or a risk assessment that exceeds the specified value, the members and / or positions are visually displayed together with the risk assessment. To highlight.

  FIG. 9 is a flowchart illustrating an example of processing executed by the architectural design support system of FIG. Steps S51, 52, and 55 in FIG. 9 are the same as steps S41 to 43 in FIG. 8, and only other different processes will be described. As shown in FIG. 9, in step S <b> 53, as shown in FIG. 9, the drawing correction unit 416 extracts design information corresponding to the resident information from the design information storage unit 452. In step S54, the drawing information is customized based on the extracted design information. After executing step S55, in step S56, based on the drawing information of the place and the drawing information after customization, the drawings of the building are respectively displayed. Further, the corresponding members together with the risk evaluation (risk evaluation before and after customization), The position is highlighted.

  FIG. 11 is a diagram showing an example of a screen interface that is generated by the process of FIG. 10 and displays the risk evaluation before and after customization and the members and positions visually emphasized. In this embodiment, it is possible for the user to immediately grasp the current dangerous part or member of his / her house, its position, the degree of risk (danger), and the degree of improvement of the risk. A screen can be presented. As shown in the figure, in the drawing field D2, a customized building and a location (high risk assessment / dangerous location) having a high risk assessment in the building are presented. In the risk evaluation field R2, the risk evaluation obtained for the customized building is displayed above the specified value (standard). In this figure, since the drawing field D1 before customization and the risk evaluation field R2 are displayed together, the user who sees this easily understands the degree of risk reduction by renovation and intends to order renovation smoothly. You will be able to make a decision. Further, in the estimate field E1, a detailed construction estimate for each member is displayed. This estimate is also a material that supports user decision making. The price of the member and the construction cost are calculated with reference to the construction unit price storage unit 456.

  Although the present invention has been described based on the drawings and examples, it should be noted that those skilled in the art can easily make various modifications and corrections based on the present disclosure. Therefore, it should be noted that these variations and modifications are included in the scope of the present invention. For example, the functions included in each unit, each means, each step, etc. can be rearranged so as not to be logically contradictory, and a plurality of means, steps, etc. can be combined or divided into one. It is.

It is a block diagram which shows the outline | summary of the architectural design support system for welfare by one embodiment of this invention. It is a flowchart which shows an example of the process performed with the building design assistance system of FIG. It is a block diagram which shows the outline | summary of the architectural design support system for welfare by one embodiment of this invention. It is a block diagram which shows the outline | summary of the architectural design support system for welfare by one embodiment of this invention. It is a flowchart which shows an example of the process performed with the building design assistance system of FIG. It is a block diagram which shows the outline | summary of the architectural design support system for welfare by one embodiment of this invention. It is a flowchart which shows an example of the process performed with the building design support system of FIG. It is a flowchart which shows an example of the process performed with the building design support system of FIG. It is a flowchart which shows an example of the process performed with the building design support system of FIG. It is a figure which shows the example of a screen interface which displayed the risk evaluation, the said member, and position produced | generated by the process of FIG. It is a figure which shows the example of the screen interface which displayed the risk evaluation before and after customization, the said member, and position generated visually by the process of FIG.

100, 200, 300, 400 Architectural design support system 110, 210, 310, 410 Control unit 112, 212, 312, 412 Drawing information acquisition unit 114, 214, 314, 414 Resident information acquisition unit 120, 220, 320, 420 Input unit 130, 230, 330, 430 Output unit 140, 240, 340, 440 Communication unit 150, 250, 350, 450 Storage unit 152, 252, 352, 452 Design information storage unit 160, 260, 360, 460 Display unit 254 , 354, 454 Public auxiliary information storage unit 317, 417 Construction extraction unit 318, 418 Estimate generation unit 319, 419 Risk evaluation unit 356, 456 Construction unit price storage unit 458 Risk storage unit MS1 Mobile phone terminal NET network PC1, terminal PDA1 Portable terminal PRN Printer D1, D2 Drawing field R1, R2 Risk assessment field PS Public support field E1 Estimate field

Claims (1)

An architectural design support system,
A risk storage unit that stores a risk assessment master table in which risk sources by building design information and risk assessment information associated therewith are defined;
A design information storage unit for storing resident information and design information associated therewith,
A drawing information acquisition unit for acquiring building drawing information;
A resident information acquisition unit for acquiring resident information of the building;
Based on the drawing information of the building acquired by the drawing information acquisition unit and the resident information of the building acquired by the resident information acquisition unit, referring to the risk assessment master table, each of the original drawing information A risk assessment unit that seeks risk assessment of components and / or positions;
Architectural design support system.

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