JP2012123745A - Heat insulator selection support system, heat insulator selection support method and computer program - Google Patents

Abstract

To make it easier to select a heat insulating material for a building.
A heat insulating material selection support system comprising information on a structure or member of a building, a type of heat insulating material, a part where the heat insulating material is provided, information on a structure or member of the building, and the part. Insulating material information storage unit for storing insulating material information that associates the thickness of the insulating material required in the building with the condition represented by the type of insulating material provided in the structure, and the structure or member of the building A thickness acquisition unit that receives a selection result by a user for information and the type and part of the heat insulating material, and acquires the thickness of the heat insulating material of the part corresponding to the selection result from the heat insulating material information storage unit And a display data generation unit that generates and outputs data for displaying the thickness of the heat insulating material of the part acquired by the thickness acquisition unit.
[Selection] Figure 2

Description

  The present invention relates to a technique for supporting selection of a heat insulating material for a building.

  Thermal insulation is used for the walls and floors of buildings. As the thickness of the heat insulating material increases, the heat insulating effect improves. However, the heat insulating material occupies a lot of space and is expensive. Moreover, there are a plurality of types of heat insulating materials, and each has different thermal conductivity. Therefore, the thickness required to obtain the same heat insulating effect differs for each heat insulating material. Therefore, when designing a building, it is necessary to appropriately select the type and thickness of the heat insulating material according to the required heat insulating effect.

  Standards have been established for insulation of buildings. Specifically, based on the “Law on the Rational Use of Energy,” “Standards for Judgment of Owners of Specific Buildings, etc., on Rationalization of Use of Energy Related to Houses,” and “ “Guidelines” (next-generation energy-saving standards) have been established. The next-generation energy-saving standards stipulate the performance required when building a house, such as heat insulation, airtightness, and solar shading, for each region divided into regions I to VI according to the climate by city and village. Therefore, it is desired to determine the type and thickness of the heat insulating material so as to satisfy such regulations. Conventionally, a list of usage standards is created for each type of heat insulating material, and a designer selects an appropriate type and thickness using the list. A support device for determining the amount of members necessary for a building has been proposed in the past (for example, Patent Document 1), but since the selection of the type and thickness of the heat insulating material is complicated, the type and thickness of the heat insulating material. No support device has been proposed.

JP 2005-056248 A

As described above, there are many types of heat insulating materials. Moreover, it is also possible to change the kind of heat insulating material for every position like the wall and ceiling of a building. Therefore, when designing one building, much time and cost were spent on the operation | work which selects the kind and thickness of a required heat insulating material appropriately.
In view of the above circumstances, an object of the present invention is to provide a technique for facilitating selection of a heat insulating material for a building.

  One aspect of the present invention is a heat insulating material selection support system, which is information on a structure or member of a building, a type of heat insulating material, a portion where the heat insulating material is provided, and information on a structure or member of the building. And a heat insulating material information storage unit for storing heat insulating material information in association with the thickness of the heat insulating material required in the building under the condition represented by the type of heat insulating material provided in the part, and the structure of the building Alternatively, the thickness of the information about the member, the type of the heat insulating material and the part thereof, the selection result by the user, and the thickness of the heat insulating material of the part corresponding to the selection result is acquired from the heat insulating material information storage unit. And a display data generation unit that generates and outputs data for displaying the thickness of the heat insulating material of the part acquired by the thickness acquisition unit.

  One aspect of the present invention is the above-described heat insulating material selection support system, wherein the display data generation unit is provided for each part in the vicinity of a corresponding part of the building image together with a building image in the form of a building. The data for displaying the thickness of the heat insulating material is generated.

  One aspect of the present invention is the above-described heat insulating material selection support system, wherein the display data generation unit generates and selects screen data for a user to select information on a structure or a member of a building. Depending on the result, it is determined whether it can be considered that the predetermined standard is satisfied by reducing the performance of the heat insulating material of one part and improving the performance of the other part, and the determination result is displayed on the screen. Generate data for display.

  One aspect of the present invention is information on a structure or member of a building, a type of heat insulating material, a portion where the heat insulating material is provided, information on a structure or member of the building, and a heat insulating material provided in the portion. This is a heat insulation material selection support method performed by a heat insulation material selection support system including a heat insulation material information storage unit that stores heat insulation material information that associates the thickness of the heat insulation material required in the building with the condition represented by the type. The heat insulating material selection support system receives information on the structure or member of the building, the type of the heat insulating material, and its part, and a selection result by the user, and heat insulation of the part corresponding to the selection result. A thickness acquisition step of acquiring the thickness of the material from the heat insulating material information storage unit; and And a display data generating step of generating and outputting data for displaying the thickness of the wood.

  One aspect of the present invention is information on a structure or member of a building, a type of heat insulating material, a portion where the heat insulating material is provided, information on a structure or member of the building, and a heat insulating material provided in the portion. Information on the structure or member of the building for a computer including a heat insulating material information storage unit that stores heat insulating material information associated with the thickness of the heat insulating material required in the building of the condition represented by the type, and The thickness acquisition step of receiving the selection result by the user for the type of the heat insulating material and its part, and acquiring the thickness of the heat insulating material of the part corresponding to the selection result from the heat insulating material information storage unit, A display data generation step for generating and outputting data for displaying the thickness of the heat insulating material of the part acquired by the thickness acquisition step. Is a computer program.

  By this invention, it becomes possible to make selection of the heat insulating material of a building easier.

1 is a system configuration diagram showing a system configuration of a heat insulating material selection support system 100. FIG. 3 is a schematic block diagram illustrating a functional configuration of a heat insulating material selection support device 300. FIG. It is a figure showing the specific example of a window information table. It is a figure showing the specific example of a heat insulating material information table. It is a figure showing the specific example of a trade-off information table. It is a figure showing the specific example of a heat insulating material position information table. It is a figure showing the example of a display of a top page. It is a figure showing the example of a display of a top page in case the value of the read trade-off object information is "trade-off object". It is a figure showing the example of a display of a top page in case the value of the read trade-off object information is "non-trade-off object". It is a figure showing the example of a display of a thickness display page. It is a figure showing the example of a display of a thickness display page.

  FIG. 1 is a system configuration diagram illustrating a system configuration of a heat insulating material selection support system 100. The heat insulating material selection support system 100 is a system used when a heat insulating material used for a building is selected according to a predetermined standard. A building in the following description may be a general house, an apartment house such as an apartment or a condominium, an office building, or another building. May be. The heat insulating material selection support system 100 includes a terminal device 200 and a heat insulating material selection support device 300. The number of terminal devices 200 provided in the heat insulating material selection support system 100 may be one or plural. The terminal device 200 and the heat insulating material selection support device 300 are connected via a network 400 so that they can communicate with each other. The terminal device 200 accesses the heat insulating material selection support device 300 and requests transmission of necessary data. The heat insulating material selection support apparatus 300 generates display data for displaying the requested data, and transmits the display data to the terminal apparatus 200 that is the request source. The terminal device 200 receives the display data and displays it on the screen. Hereinafter, each device of the heat insulating material selection support system 100 will be described.

  The terminal device 200 is an information processing device having a communication function, such as a personal computer, a smartphone, a PDA (Personal Digital Assistant), or a mobile phone. The terminal device 200 includes an image display device for displaying an image and an input device for a user to input commands and values. The image display device is a device such as a CRT (Cathode Ray Tube) display, a liquid crystal display, or an organic EL (Electro Luminescence) display. The input device is a device such as a keyboard, a pointing device (mouse, tablet, etc.), a button, a touch panel, and the like.

  The terminal device 200 has a function for accessing the heat insulating material selection support device 300 and receiving display data. Such a function may be realized in any way. For example, it may be implemented in the terminal device 200 as a dedicated application, or may be implemented in the terminal device 200 as a WEB browser. In the present embodiment, the terminal device 200 requests display data from the heat insulating material selection support device 300 by executing the WEB browser, and displays the received display data. However, the configuration of the heat insulating material selection support system 100 is not limited to such a configuration.

  Next, FIG. 2 is a schematic block diagram illustrating a functional configuration of the heat insulating material selection support device 300. The heat insulating material selection support device 300 is configured using an information processing device such as a main frame, a workstation, or a personal computer. The heat insulating material selection support device 300 includes a CPU (Central Processing Unit), a memory, an auxiliary storage device, and the like connected by a bus. The heat insulating material selection support apparatus 300 executes a heat insulating material selection support program. The heat insulating material selection support apparatus 300 is configured to execute the above-described program by communicating with the communication unit 301, the display data generating unit 302, the window information storage unit 303, the trade-off information storage unit 304, the heat insulating material position information storage unit 305, and the heat insulating material information storage unit. 306, function as an apparatus including a thickness acquisition unit 307. Note that all or part of each function of the heat insulating material selection support device 300 is realized by using hardware such as an application specific integrated circuit (ASIC), a programmable logic device (PLD), and a field programmable gate array (FPGA). Also good.

  The communication unit 301 transmits / receives data to / from the terminal device 200 via the network 400. For example, the communication unit 301 receives request data representing a request for display data from the terminal device 200. Further, the communication unit 301 transmits the display data generated by the display data generation unit 302 to the terminal device 200 that is a display data request source.

  The display data generation unit 302 generates display data according to request data from the terminal device 200. Then, the display data generation unit 302 transmits display data to the terminal device 200 that is the transmission source of the request data via the communication unit 301 and the network 400. For example, the display data generation unit 302 transmits and receives data to and from the terminal device 200 using HTTP (HyperText Transfer Protocol). More specifically, the display data generation unit 302 receives request data based on HTTP from the terminal device 200, and generates an HTML (HyperText Markup Language) file corresponding to the request data as display data. When generating the display data, the display data generating unit 302 is necessary to acquire the thickness of the heat insulating material from the received request data when the value of the thickness of the heat insulating material is required. Is transmitted to the thickness acquisition unit 307, and the thickness of the heat insulating material is acquired from the thickness acquisition unit 307. Then, the display data generation unit 302 transmits an HTML file as display data to the terminal device 200.

The window information storage unit 303 is a storage device such as a magnetic hard disk device or a semiconductor storage device. The window information storage unit 303 stores a window information table in advance. A window information table is a table showing the information regarding the window used for a building.
The trade-off information storage unit 304 is a storage device such as a magnetic hard disk device or a semiconductor storage device. The trade-off information storage unit 304 stores a trade-off information table in advance. The trade-off information table is a table indicating whether or not a building under each condition is a trade-off target.

  The heat insulating material position information storage unit 305 is a storage device such as a magnetic hard disk device or a semiconductor storage device. The heat insulating material position information storage unit 305 stores a heat insulating material position information table in advance. The heat insulating material position information table is a table representing a position where the type and thickness of the heat insulating material should be displayed on a thickness display page described later.

The heat insulating material information storage unit 306 is a storage device such as a magnetic hard disk device or a semiconductor storage device. The heat insulating material information storage unit 306 stores a heat insulating material information table in advance. A heat insulating material information table is a table showing the information regarding the heat insulating material used for a building.
The thickness acquisition unit 307 acquires the thickness of the heat insulating material based on the information received from the display data generation unit 302 and the heat insulating material information table. Then, the thickness acquisition unit 307 transmits the acquired thickness to the display data generation unit 302.

  FIG. 3 is a diagram illustrating a specific example of the window information table. The window information table is a table in which the value of the “maker” item is associated with the value of the “window type” item. The window information table represents the name of the type of window provided by each manufacturer. The value of the “window type” item associated with the value of one “maker” item may be one or plural. The display data generation unit 302 reads the value of the item of window type from the window information table in accordance with the value of the manufacturer item included in the request data. Then, the display data generation unit 302 generates display data using the value of the read window type item.

  FIG. 4 is a diagram illustrating a specific example of the heat insulating material information table. The insulation information table includes the values of the “region” item, the “upper insulation method” item, the “construction” item, the “structure” item, and the “window type”. The value of the item, the value of the “Attachment” item, the value of the “First trade-off” item, the value of the “Second trade-off” item, the value of the “Insulation” item, It is a table in which the value of the item “position” is associated with the value of the item “thickness”.

The item “region” represents the region of the land where the building is built. The value of the “Region” item is, for example, the value (I, II, III, IV, V) of the heat insulation performance area divided into five according to the weather conditions throughout Japan in the next-generation energy-saving standards for houses. There may be.
The value of the item “upper thermal insulation method” represents the thermal insulation method performed on the upper part of the building. The value of the item “upper heat insulation method” is, for example, “roof heat insulation” or “ceiling heat insulation”. Roof heat insulation is a heat insulation method in which a heat insulating material is spread on a ceiling material. Roof heat insulation is a heat insulation method in which a heat insulating material is spread on the back of a roof material.

  The value of the item “Method” represents a method used when installing a heat insulating material on a building. The value of the item “construction method” is, for example, “outer” or “filling”. “Outer” represents the outer insulation method. The external heat insulating method is a method of covering with a heat insulating material from the outside of a column and a beam. “Filling” represents the filling insulation method. The filling heat insulation method is a method of filling a heat insulating material between columns and beams.

  The value of the item “structure” represents a construction method used when building a building. The value of the item “structure” is, for example, “a wooden frame method” or “a frame wall method”. The wooden frame construction method is a method of building a framework of a house with wooden frames such as columns, beams, girders, braces. The frame wall construction method is a construction method in which independent floor panels and wall panels are stacked for each floor, and a heat insulating material is filled in the cavity of the panel.

The value of the “window type” item represents the type of window installed in the opening of the building. The value of the “window type” item is any one value set as the value of the “window type” item in the window information table. For example, the “window type” value includes “a1”, “b2”, “a2”, and the like. As a more specific example, the product name or model number of the window may be set as the value of “window type”.
The value of the item “attachment member” represents the type of member other than the window installed in the opening of the building. The value of the item “attachment member” is any one of “lace curtain”, “internal blind”, “shoji”, and “external blind”, for example.

  The value of the item “first trade-off” is a value representing a trade-off related to the heat insulating material used for the roof. Trade-off means that it is possible to consider that the insulation performance of roofs, walls, floors, openings, etc., satisfies certain standards by improving the performance of other parts instead of suppressing the performance of one part. is there. As a specific example of the trade-off, there is a provision established in the 2009 revised Energy Saving Law. In this case, the predetermined standard regarded as satisfying is the next generation energy saving standard. The value of the item of “first trade-off” is any one of “opening-roof trade”, “wall-roof trade”, and “no roof trade”, for example.

The value of the item “second trade-off” is a value representing a trade-off related to the heat insulating material used for the floor. The value of the item “second trade-off” is, for example, “floor trade” or “no floor trade”.
The value of the item “insulation” is a value representing the name of the type of insulation used in the building. The value of the item “insulating material” is, for example, “fenova board” or “polyurethane”.

The value of the item “position” is a value representing a part where a heat insulating material is used in a building. The values of the item of “position” are, for example, “roof thickness”, “ceiling thickness”, “wall thickness”, “floor (outside air contact portion) thickness”, “floor (other) thickness”, and “foundation”. (Outside air contact part) Thickness "or" Foundation (other) thickness ".
The value of the item “thickness” represents a thickness required for the heat insulating material used for the building in order to satisfy a predetermined standard. The value of the item of “Thickness” is “Region”, “Upper insulation method”, “Method”, “Structure”, “Window type”, “Attachment”, “No. It was calculated in advance so as to satisfy a predetermined standard according to the values of each item (hereinafter referred to as “condition item”) of “one trade-off”, “second trade-off”, “insulation material”, and “position”. It is a value representing the thickness of the heat insulating material. The predetermined standard is, for example, a next generation energy saving standard. The thickness acquisition unit 307 receives the “region”, “upper insulation method”, “construction method”, “structure”, “window type”, “attachment member”, “first trade-off” from the display data generation unit 302, Receive the values of the items “Second Tradeoff”, “Insulation”, and “Position”. The thickness acquisition unit 307 refers to the heat insulating material information table, calculates and reads the value of the item “thickness” corresponding to the combination of the values of the received items. Then, the thickness acquisition unit 307 transmits the read “thickness” item value to the display data generation unit 302.

  FIG. 5 is a diagram illustrating a specific example of the trade-off information table. The trade-off information table includes the values of the “region” item, the “upper insulation method” item value, the “construction method” item value, the “structure” item value, and the “first trade-off” item. It is a table in which item values, “second trade-off” item values, and “trade-off target information” item values are associated with each other. “Region”, “Upper insulation method”, “Construction method”, “Structure”, “First trade-off”, “Second trade-off” are the values of each item of the same name in the insulation information table (FIG. 4). Same as item value. The items of “trade-off target information” are “region”, “upper insulation method”, “construction method”, “structure”, “first trade-off”, “second trade-off” associated in the trade-off information table. It is the information showing whether it is a building used as a trade-off object according to the value of each item. The value “trade-off target” is a value indicating that the building is a trade-off target. That is, the trade-off selected as the first trade-off and the trade-off selected as the second trade-off are both legitimately executable trade-offs. On the other hand, the value “not subject to trade-off” is a value indicating that the building is not subject to trade-off (is not subject to trade-off). That is, it represents that one or both of the trade-off selected as the first trade-off and the trade-off selected as the second trade-off are not allowed.

  FIG. 6 is a diagram illustrating a specific example of the heat insulating material position information table. The insulation material position information table includes the value of the “upper insulation method” item, the value of the “construction method” item, the value of the “structure” item, the value of the “first trade-off” item, It is a table in which the value of the item “Two Tradeoffs” is associated with the value of the item “Position Information”. The value of each item of “Upper insulation method”, “Method”, “Structure”, “First trade-off”, “Second trade-off” is the same as the value of each item of the same name in the insulation information table (FIG. 4). The same. The items of “position information” are the values of the respective items of “upper insulation method”, “method”, “structure”, “first trade-off”, and “second trade-off” associated in the insulation material position information table. According to the information, the information represents the position of the heat insulating material whose thickness should be considered in order to satisfy a predetermined standard.

  FIG. 7 is a diagram illustrating a display example of the top page. The top page is a screen that is first displayed on the terminal device 200 of the user who wants to receive the heat insulating material selection support service. The terminal device 200 transmits the request data of the top page to the heat insulating material selection support device 300 when the start instruction of the heat insulating material selection support service is input from the user. Upon receiving the top page request data from the terminal device 200, the display data generation unit 302 transmits the top page display data to the terminal device 200. Upon receiving the top page display data from the heat insulating material selection support device 300, the terminal device 200 displays the top page screen.

  A selection frame for selecting a part or all of the condition items is displayed on the top page. In the example of FIG. 7, the top page includes an area selection frame 401, an upper insulation method selection frame 402, a method selection frame 403, a structure selection frame 404, a manufacturer selection frame 405, a window type selection frame 406, and an attached member. A selection frame 407, a first trade-off selection frame 408, a second trade-off selection frame 409, and a send button 410 are displayed. A method for inputting a value to each selection frame may be realized by any existing method. For example, it may be realized by a method of directly inputting characters to the selection frame, or a plurality of preset options are displayed by clicking on the selection frame, and the user selects one option from among them. It may be configured to select.

  The region selection frame 401 is a frame for inputting the value of the item of the region selected by the user. The upper insulation method selection frame 402 is a frame for inputting the value of the item of the upper insulation method selected by the user. The method selection frame 403 is a frame for inputting the value of the item of the method selected by the user. The structure selection frame 404 is a frame for inputting the value of the item of the structure selected by the user. The manufacturer selection frame 405 is a frame for inputting the value of the item of the manufacturer selected by the user. The window type selection frame 406 is a frame for inputting the value of the window type item selected by the user. The attachment member selection frame 407 is a frame for inputting the value of the item of the attachment member selected by the user. The first trade-off selection frame 408 is a frame for inputting the value of the first trade-off item selected by the user. The second trade-off selection frame 409 is a frame for inputting the value of the second trade-off item selected by the user. The transmission button 410 is a button for transmitting request data for requesting a thickness display page together with the values input in the selection frames 401 to 409.

  When the value of the maker item is input to the maker selection frame 405, the terminal device 200 sends request data for requesting a new top page to the heat insulating material selection support device 300 together with the input value of the maker item. Send. Such processing when a maker item value is input to the maker selection frame 405 is defined in advance in an HTML file that is display data of the top page. The display data generation unit 302 refers to the window information table, and reads the value of the item of the window type corresponding to the value of the manufacturer item received together with the request data. The display data generation unit 302 generates top page display data such that the read window type item value is displayed as an option in the window type selection frame 406. Then, the display data generation unit 302 transmits the generated display data to the terminal device 200. The terminal device 200 displays the newly received display data. When the option display button in the window type selection frame 406 (a button containing a downward-facing black triangle in FIG. 7) is pressed, the terminal device 200 displays a value option for the window type item.

  When the value input in the first trade-off selection frame 408 or the second trade-off selection frame 409 is a value indicating that the terminal device 200 performs a trade-off, the terminal device 200 selects the area selection frame 401 and the upper insulation method. Each time the value input to the frame 402, the construction method selection frame 403, the structure selection frame 404, the first trade-off selection frame 408 or the second trade-off selection frame 409 is changed, the area selection frame 401 and the upper insulation at that time are changed. The request data for requesting a new top page is inputted together with the values inputted in the construction method selection frame 402, the construction method selection frame 403, the structure selection frame 404, the first trade-off selection frame 408 and the second trade-off selection frame 409. It transmits to the heat insulating material selection assistance apparatus 300. Such processing is defined in advance in an HTML file that is display data of the top page.

  The display data generation unit 302 reads the trade-off target information corresponding to the combination of values received together with the request data with reference to the trade-off information table. The display data generation unit 302 generates display data for displaying a character string corresponding to the read trade-off target information at a predetermined position. FIG. 8 is a diagram illustrating a display example of the top page when the value of the read trade-off target information is “trade-off target”. When the value of the read trade-off target information is “trade-off target”, the display data generation unit 302 generates display data for displaying a character string “trade-off is performed” at a predetermined position. . FIG. 9 is a diagram illustrating a display example of the top page when the value of the read trade-off target information is “non-trade-off target”. When the value of the read trade-off target information is “not subject to trade-off”, the display data generating unit 302 generates display data for displaying a character string “not subject to trade-off” at a predetermined position. To do. Then, the display data generation unit 302 transmits the generated display data to the terminal device 200. The terminal device 200 displays the newly received display data.

  When the transmission button 410 is pressed, the terminal device 200 transmits request data for requesting a thickness display page to the heat insulating material selection support device 300 together with the values input in the selection frames 401 to 409. In addition, the terminal device 200 temporarily stores values input in the selection frames 401 to 409. Such processing when the transmission button 410 is pressed is defined in advance in an HTML file that is display data of the top page. The display data generation unit 302 reads the position information corresponding to the combination of the values received together with the request data with reference to the heat insulating material position information table. The display data generation unit 302 displays a frame for displaying information on the heat insulating material (a heat insulating material selection frame 501 and a thickness display frame 502 to be described later) at each position defined in the read position information. Generate display data for the page. Then, the display data generation unit 302 transmits the generated display data to the terminal device 200. The terminal device 200 displays the display data of the newly received thickness display page.

  10 and 11 are diagrams illustrating display examples of the thickness display page. On the thickness display page, the type of the heat insulating material selected by the user and the thickness required for the heat insulating material are displayed. In the case of the example in FIG. 10, an image 503 in the shape of a building (hereinafter referred to as “building image”) is displayed on the thickness display page, and a heat insulating material on the building image 503 is installed. For each position, a heat insulating material selection frame 501 and a thickness display frame 502 are displayed. The position where the heat insulating material selection frame 501 and the thickness display frame 502 are displayed changes according to the values of the items of the upper heat insulating method, method, structure, first trade-off and second trade-off selected on the top page. To do. Through the above-described processing, the position information corresponding to the values of the items of the top insulation method, method, structure, first trade-off and second trade-off selected on the top page is read by the display data generation unit 302, and the thickness Display data of the display page is generated.

  Each time the value input to the heat insulating material selection frame 501 is changed, the terminal device 200 together with the value input to each heat insulating material selection frame 501 and the value input to each selection frame 401 to 409 on the top page. The request data for requesting a new thickness display page is transmitted to the heat insulating material selection support apparatus 300. Such processing is defined in advance in an HTML file that is display data of the thickness display page. The display data generation unit 302 transmits the received information to the thickness acquisition unit 307. The thickness acquisition unit 307 refers to the heat insulating material information table and reads the value of the “thickness” item required for each heat insulating material corresponding to the value of the received condition item. The thickness acquisition unit 307 transmits each value of the acquired “thickness” item to the display data generation unit 302. The display data generation unit 302 generates display data of a thickness display page that displays each value of the thickness item acquired by the thickness acquisition unit 307 in the corresponding thickness display frame 502. Then, the display data generation unit 302 transmits the generated display data to the terminal device 200. The terminal device 200 displays the newly received display data.

  For example, in the thickness display page of FIG. 10, when the value input to the heat insulating material selection frame 501 at the wall thickness position is changed from “Phenova board” to “Polyurethane”, the following processing is executed. . First, the terminal device 200 has the values input to the respective heat insulating material selection frames 501 at the respective positions of the roof thickness, wall thickness, floor (outside air contact portion) thickness, foundation (outside air contact portion) thickness, and foundation (other) thickness. The request data for requesting a new thickness display page is transmitted to the heat insulating material selection support apparatus 300 together with the values input in the selection frames 401 to 409 on the top page. The display data generation unit 302 generates display data for a new thickness display page, and transmits this display data to the terminal device 200. The terminal device 200 displays the newly received display data. At this time, the thickness display page displayed by the terminal device 200 is, for example, a screen as shown in FIG.

  The user of the terminal device 200 refers to the display related to the trade-off as shown in FIG. 8 or FIG. 9, and the building corresponding to the value of each item selected by the user at that time is a trade-off. It becomes possible to immediately determine whether or not it is the target. Also, if it is displayed that it is not subject to trade-off even though you want a building that is subject to trade-off, change the value entered in each selection frame on the spot. By doing so, it is possible to select a value that is a target of trade-off.

  In addition, the user of the terminal device 200 refers to the thickness display page as shown in FIG. 10 or FIG. 11, and determines the thickness required for the heat insulating material selected at that time. It is possible to immediately determine for each position where is used. Further, the heat insulating material selection frame 501 and the thickness display frame 502 are displayed for each position where the heat insulating material on the building image 503 is installed. Therefore, the user can visually determine the position of the heat insulating material intuitively, and it is possible to prevent an operation error or a determination error.

<Modification>
The top page mentioned above does not necessarily need to be displayed first on the terminal device 200 of the user who is going to receive the heat insulating material selection support service. For example, other pages may be displayed first on the terminal device 200. Then, after the button indicating that the insulation material examination using the specification rule is performed is pressed on the page, the terminal device 200 transmits request data for requesting the top page as illustrated in FIG. 7, and as illustrated in FIG. A top page may be displayed on the terminal device 200.
In the above description, the process in which the terminal device 200 transmits the request data in response to a certain value being input or a button being pressed on the top page or the thickness display page is defined in advance in the HTML file of each page. Processing. On the other hand, these processes may be processes defined in advance for a dedicated application executed by the terminal device 200.

The heat insulating material selection support device and the terminal device 200 may be configured as an integrated device. When configured in this way, the communication unit 301 and the network 400 are unnecessary. The display data generation unit 302 has a function of displaying the generated display data on the screen.
The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes designs and the like that do not depart from the gist of the present invention.

DESCRIPTION OF SYMBOLS 100 ... System, 200 ... Terminal device, 300 ... Facility management auxiliary device, 301 ... Communication part, 302 ... Display data generation part, 303 ... Window information storage part, 304 ... Trade-off information storage part, 305 ... Insulation material position information storage , 306 ... heat insulation information storage unit, 307 ... thickness acquisition unit

Claims (5)

Information regarding the structure or member of the building, the type of heat insulating material, the part where the heat insulating material is provided, the information regarding the structure or member of the building and the type of heat insulating material provided in the part A heat insulating material information storage unit for storing heat insulating material information associated with the thickness of the heat insulating material required in the building;
The information regarding the structure or member of the building, the type of the heat insulating material and the part thereof, the selection result by the user is accepted, and the thickness of the heat insulating material of the part corresponding to the selection result is stored in the heat insulating material information. A thickness acquisition unit acquired from the unit;
A display data generation unit that generates and outputs data for displaying the thickness of the heat insulating material of the part acquired by the thickness acquisition unit;
Insulation material selection support system.   The said display data production | generation part produces | generates the data for displaying the thickness of the said heat insulating material for every said part in the vicinity of the applicable site | part of the said building image with the building image in the shape of the building. The heat insulating material selection support system according to 1.   The display data generation unit generates screen data for the user to select information on the structure or member of the building, and reduces the performance of the heat insulating material in one part according to the selected result. 3. The method according to claim 1, wherein it is determined whether or not it can be considered that a predetermined standard is satisfied by improving the performance of the part of the region, and data for displaying the determination result on the screen is generated. Insulation material selection support system. Information regarding the structure or member of the building, the type of heat insulating material, the part where the heat insulating material is provided, the information regarding the structure or member of the building and the type of heat insulating material provided in the part A heat insulating material selection support method provided by a heat insulating material selection support system including a heat insulating material information storage unit that stores heat insulating material information associated with the thickness of a heat insulating material required in a building,
The heat insulating material selection support system accepts a selection result by a user for information on the structure or member of the building, the type of the heat insulating material, and its part, and the heat insulating material of the part corresponding to the selection result. A thickness acquisition step of acquiring a thickness from the heat insulating material information storage unit;
The insulating material selection support system generates and outputs data for displaying the thickness of the insulating material of the part acquired by the thickness acquiring step,
A method for supporting the selection of heat insulating material. Information regarding the structure or member of the building, the type of heat insulating material, the part where the heat insulating material is provided, the information regarding the structure or member of the building and the type of heat insulating material provided in the part For a computer including a heat insulating material information storage unit that stores heat insulating material information associated with the thickness of a heat insulating material required in a building,
The information regarding the structure or member of the building, the type of the heat insulating material and the part thereof, the selection result by the user is accepted, and the thickness of the heat insulating material of the part corresponding to the selection result is stored in the heat insulating material information. A thickness acquisition step of acquiring from the section;
A display data generation step of generating and outputting data for displaying the thickness of the heat insulating material of the part acquired by the thickness acquisition step;
A computer program for running.

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