JP2001147946A - Building designing device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To facilitate design itself when designing an industrialized house or the like, to make a picture indication easy to comprehend, and to easily and speedily execute design work from planning to the preparation of component information. SOLUTION: This device is provided with a storage means 6, in which the pattern of information on the external form and structure components of an entire building is determined, a storage means 7 for the pattern of the three- dimensional model and component information of single or plural room spaces, a detailed information storage means 8, and a display/selecting means 5 for displaying the information stored in these respective storage means 6-8 on a display device 3 and setting items selected out of these display contents as the design elements of the building. This display/selecting means 5 displays a plan drawing 50, with which the patterns of respective stages are collected, and a mode selecting icon 51 on the display device 5. Besides, by matching a cursor 52 on the plan drawing 50, the item of a pattern or the like designated by that cursor is shown by changing the display of a partial color.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a CAD system for designing buildings such as industrial houses based on functional space patterns.
The present invention relates to a building design device having a system function.

[0002]

2. Description of the Related Art A conventional CAD system for a house basically draws a floor plan based on a sketch drawn on paper or directly on a computer display. Taking a technique. There is no concept of patterning or standardization of the space, and most of them are designed by designers. The conventional CAD system has an advantage that any layout can be accommodated, but in the case of an industrialized house, it is necessary to design within a predetermined design guideline. The decision to stay within the range is left to humans. Therefore, for the created plan, it is necessary to create production information by expanding it to parts every time, but the rules for that need to be complicated year by year, and it is repeated that custom parts are generated depending on the plan. ing.

[0003] Also, when designing a house on a limited site such as in Japan, it is considered that the plan can be patterned to some extent. However, at present, the same is applied to each property for each office and each property. Such planning is repeated. Since it is difficult to digitally represent the shape of the completed plan or room pattern, it is difficult to perform a detailed analysis of the many patterns that appear. Furthermore, regarding the estimation, the concept of patterning is poor, so it is necessary to pick up every time, and at the time of negotiations with customers, it is difficult to submit a quote immediately on the spot. . Various proposals have been made for a plan method of a plane plan, including patterning.
All of them do not include component information such as structural components, but merely enhance the efficiency and appropriateness of the planning itself. Therefore, it is not enough to make the production of housing parts more efficient.

To solve such a problem, the present applicant has proposed a building design apparatus having a CAD system function for designing an industrialized house or the like based on a functional space pattern (Japanese Patent Laid-Open No. 10-162050). Gazette).

[0005] However, how to effectively display between the computer and the operator to prompt the input work,
There was an unsolved issue on how to design efficiently.

SUMMARY OF THE INVENTION An object of the present invention is to design a planned building such as an industrialized house. In addition to facilitating the design itself, the screen display is easy to understand, the input operation is easy, and the design from planning to creation of parts information is facilitated. It is an object of the present invention to provide a building design device that can perform work easily and quickly.

[0007]

A building design apparatus according to the present invention will be described with reference to FIGS. 1 and 3 corresponding to an embodiment. The building design device includes a skeleton space pattern storage unit (6) that stores a plurality of types of skeleton space patterns that define information on the outer shape and structural components of the entire building;
A function space pattern storage means (7) storing a plurality of types of function space patterns each defining a three-dimensional model and component information of a single or a plurality of combined room spaces, and an outer wall panel as detailed information combined with the function space patterns. Detailed information storage means (8) for storing information of internal fittings, equipment and interior materials, and a display device (3) for displaying the information stored in each of these storage means (6), (7) and (8). And a display / selection means (5) for setting an element selected from the display content as a design element of the building, while displaying the image on the screen (3a). The display / selection means (5) includes at least a screen (3a) of the display device (3).
A plan view (50) in which a functional space pattern is combined with a skeleton space pattern, and a mode selection icon (5
1) is displayed, and the cursor (52) on the screen is positioned on the plane plan view (50) in a state where an arbitrary mode selection icon (51) is selected, whereby the mode selection icon (51) is selected. In the selected mode, the element specified by the cursor (52) is displayed in the plan view (5).
It is shown by the change of the display of the partial color of 2). The partial color change is performed by a change in color, shading, saturation, etc., or inversion of display black and white or shading. Structural components in the skeleton space pattern are components necessary for building strength design, such as columns, beams, and load-bearing wall panels. The outer shape of the entire building includes the outer shape of each floor and the outer shape of the roof.

According to this structure, the display / selection means (5)
As a result, the plan view (50) and the mode selection icon (51) are displayed on the screen (3a) of the display device (3). When a mode is selected by an arbitrary mode selection icon (51) and the cursor (52) on the screen is placed on the plane plan view (50) in that state, the cursor is specified by the cursor (52) in the selected mode. Elements are indicated by a partial color change in the plan view (52).
Therefore, the currently available processing can be understood at a glance. The above-mentioned plane plan is not a simple plane plan, but indicates an element obtained by combining a skeleton space pattern and a function space pattern designed as a three-dimensional model together with parts in advance, and is stored in the detailed information storage means (8). The stored information also stores information on the outer wall panel, the interior fittings, the equipment, and the interior material as detailed information combined with the functional space pattern. Therefore, a building can be designed only by selecting a functional space pattern and detailed information. The display / selection means (5) is a means for displaying such selectable elements on the screen (3a) and setting an element selected from the display contents of the screen (3a) as a design element of the building, The building can be designed by the operator selecting each stage according to the contents displayed on the screen. In this case, by designing and preparing a plurality of types of each space pattern at the development stage of a building plan, many plans can be created by combining the patterns. For this reason, if the types of spatial patterns increase to some extent, the number of combinations becomes very large, and a plan close to a free plan can be created. Therefore, a building as if it were a free plan can be constructed by preparing a limited space pattern, and the operations from planning to production preparation can be performed simply and efficiently. In addition, since the spatial patterns to be combined with each other are divided into a skeleton spatial pattern including information of structural components and a functional spatial pattern that does not affect the strength design, the strength of the building can be ensured even when arbitrarily combined. Selection from such a large number of options can be easily and quickly performed by the display / selection means. The component information provided in the skeleton space pattern or the functional space pattern may be specified by designating the space pattern, and only the components necessary for the plan creation may be displayed on the screen (3a) in a later process. .

In the present invention, the element indicated by the partial color change by the designation of the cursor (52) in the display / selection means (5) includes a functional space pattern, a room space, a wall, and a door. Is also good. In this case, for example, when the cursor is moved to an arbitrary position other than a wall or a door in the functional space pattern on the plan view, the functional space pattern is assumed to be designated, and the entire color of the designated functional space pattern is changed. Let it change. When the functional space pattern is a combination of a plurality of room spaces, by determining the position where the cursor (52) is to be set,
The designation of the functional space pattern and the designation of the room space may be distinguished, or only the functional space pattern or the room space may be designated by changing the mode. The designation of a wall or a door can be performed by placing a cursor on the wall or the door, and the color of the designated wall or door is changed. In the case of a wall, it is necessary to distinguish how much the width portion is specified, but the specified width can be changed depending on the cursor position.

In the present invention, the display / selection means (5)
May have a mode that can be selected by the mode selection icon (51), a mode for selecting a functional space pattern, a mode for selecting a part of the functional space in detail, a mode for selecting an outer wall panel, and a mode for selecting equipment. With such mode division, efficient pattern and member selection can be performed.

In the present invention, the mode selection icon (51) may change a part of the display form in accordance with the degree of being already selected, and may change the selectable mode in accordance with the change. Thus, the icon (5
By changing a part of the display form of 1), it is possible to prevent a difficulty in searching for an icon position due to an excessive increase in the number of types of icons (51), while enabling fine mode selection.

In the present invention, as shown in FIG. 3 corresponding to the embodiment, the display / selection means (5) includes at least a skeleton space pattern and a functional space pattern on a screen (3a) of the display device (3). A plan view display function unit (27) for displaying a plane plan diagram combined with the above; a mode selection icon display function unit (28) for displaying a mode selection icon (51) on the screen (3a); When the cursor (52) on the screen is positioned on the plan view (50) in the selected state of the icon (51), the cursor (52) designates the mode selected by the mode selection icon (51). A drawing designating unit display change function unit (29) that shows the displayed elements by the partial color change of the plan view (50), and the element designated by the color change. , A predetermined input is performed to select a selectable element for the element, and the mode selection icon (51) is selected according to the degree selected by the element selection section (26). ) May include an icon form changing unit (30) that changes a part of the display form and changes the selectable mode in accordance with the change.

In the present invention, the display / selection means (5) performs a predetermined input in a state designated by the cursor (52), so that a selectable element corresponding to the designated content is a figure or a character. Window (57,
...) or a pull-down menu may be displayed on the screen.

[0014] In the present invention, the display / selection means (5) may display each figure to be displayed as a figure on which an already selected element is reflected. As a result, the drawing is completed in a stepwise manner, and the drawing becomes easy to see.

In the present invention, the building specified by the element selected by the display / selection means (5) is related to the building by selecting the icon (51) displayed on the screen of the display device (3). Whether the building complies with the regulations is displayed as a screen with a diagram showing the building and an indication of whether the building complies with the regulations.
The rule checking means (2) displayed on the screen of the display device.
4) (FIG. 2) may be provided. As described above, when the regulation checking means (24) displays a diagram showing a building and a display indicating whether or not the building conforms to the screen, it is possible to see at a glance which part of the building does not conform to the regulation. You can do so. For example, in the case of outer wall retreat check,
If the space between the adjacent land and the building is not widened by a predetermined distance, a cross mark is applied to the position of the outer wall surface of the building that is too close to the adjacent land, so that the part that is too close can be seen at a glance. In the sunshine oblique line check, possible oblique lines are displayed as a surface in a perspective view together with the building, so that the obstruction of oblique lines can be recognized at a glance.

According to the present invention, an information processing apparatus (19) including the skeleton space pattern storage means (6), the function space pattern storage means (7), and the detailed information storage means (8), and the display / selection means The information processing device (20) having (5) is a device separated from each other and may be connected via a public or dedicated communication line (21). In this configuration, an enormous amount of information can be collated while communicating with a remote information processing device (20), and a building design can be performed. Therefore, the information processing device (20) serving as a terminal for designing only needs to have a small storage capacity. In addition, buildings such as industrialized houses are often improved repeatedly, and parts are often changed to compatible products under various circumstances. In such a case, it is necessary to update the skeleton space pattern, the function space pattern, and the information of each component. However, this update is only performed for an information processing apparatus such as a remote host station (19). Thus, the design based on the latest information can be performed by a large number of remote terminals.

[0017]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described with reference to FIGS. As shown in a schematic building design method in FIG. 4, the building design apparatus includes a skeleton space pattern SP that defines information on the outer shape and structural components of the entire building, and a functional space pattern (various types) that implements customer-oriented floor plan. In combination with the space pattern (FP with room function) FP, the plan information D (FIG. 2) including the three-dimensional model and the part information is created at the same time as the creation of the plane plan. And an apparatus used for implementing a building design method for selecting interior materials and the like. FIG. 5 to FIG. 7 are diagrams showing each part of FIG. 4 in an enlarged manner.

FIG. 2 is a block diagram showing a conceptual structure of the building design apparatus. This building design device uses arithmetic processing
A storage means 1, an input device 2 such as a keyboard and a mouse,
It comprises a display device 3 such as a CRT display. The arithmetic processing / storage means 1 may be an information processing device such as a single computer, or may be configured from an information processing device such as a plurality of computers connected by a communication line. In this embodiment, as shown in FIG. 1, the arithmetic processing / storage means 1 is composed of a computer device serving as a host station 19 and a computer device serving as a terminal station 20 connected thereto via a communication line 21. . The communication line 21 may be a public communication line such as a telephone line network or a dedicated communication line. The host station 19 and the terminal station 20 communicate with the communication line 2
1 has communication means 22 and 23, such as a digital service unit or a modem, for communicating via the communication unit 1 and the communication unit 22. A plurality of terminal stations 20 may be provided. The input device 2
And the display device 3 shows what is provided in the terminal station 20. The host station 19 has a plan creation data storage unit 4,
The created plan information storage means 18 is provided, and the terminal station 20 is provided with the display / selection means 5. The plan creation data storage unit 4 is means for storing predetermined data in a hard disk or other storage medium, and serves as a database. The display / selection means 5 is provided for the plan creation data storage 4
To perform predetermined processing for an operator to design a building by accessing the CPU, and is configured by a CPU, a memory, a predetermined program, and the like. In FIG. 2, each unit configured by the host station 19 and the terminal station 20 is shown as a functional block diagram without distinction.

The plan creation data storage unit 4 includes a skeleton space pattern storage unit 6, a functional space pattern storage unit 7, a detailed information storage unit 8, and an integrated information storage unit 9. The display / selection unit 5 displays the information stored in each of the storage units 6 to 9 of the plan creation data storage unit 4 on the screen 3a of the display device 3, and displays the element selected from the display content as a building design element. It is a means to set as. As shown in FIG. 3, the display / selection unit 5 includes an element selection unit 26 and a plan view display unit 27 which is a unit for assisting the screen display on the display device 3 by the element selection unit 26.
A mode selection icon display function unit 28, a drawing designation unit display change function unit 29, and an icon form change unit 30 are provided. As shown in FIG. 2, the element selection unit 26 includes a skeleton space selection unit 10, a functional space selection unit 11, an outer wall panel selection unit 12, an exterior perspective creation unit 13, an interior selection unit 14, and an interior perspective diagram creation unit 15. , Integrated information display means 16 and plan information storage means 17 for storing plan information D being created. Arithmetic processing / storage means 1
Is provided with a created plan information storage unit 18 and the like.

The skeleton space pattern storage means 6 is a means for storing a plurality of types of skeleton space patterns SP. As shown in FIG. 5B, the skeleton space pattern SP is composed of information on the outer shape of the entire building and information on structural components. The contour shape is set as a three-dimensional model. The structural components referred to here are components required for designing the strength of the building, such as columns, beams, load-bearing wall panels, roof trusses, and the like. The information on the structural component is information on the type and arrangement of the structural component. It is sufficient that the information on the structural parts can be specified by specifying the skeleton space pattern SP. For example, the information is prepared in a predetermined data table or the like.
The structural components of the skeleton space pattern SP may be extracted from the data table by using the identification code of the skeleton space pattern SP. In this example, the skeleton space pattern SP assumes that the arrangement of the entrance and the stairs is determined. A plurality or one skeleton space pattern SP is prepared for each silhouette pattern RP of the three-dimensional model that defines the outer shape of the entire building.

The function space pattern storage means 7 is a means for storing a plurality of function space patterns FP. The functional space pattern FP is configured by a combination of room space data or a single room space data. As shown in Fig. 7, room space data is classified by size and function, such as Japanese-style rooms of various sizes, wide rooms, Western-style rooms, closet rooms, between floors, between France, facing kitchens, independent kitchens, toilets, unit baths, etc. 3D model data of various types of rooms, and data on the types and arrangements of parts and materials used for the rooms.
The data of parts and materials is composed of data of single parts and materials, or data of parts and material patterns obtained by combining a plurality of parts and materials. Some of the functional space patterns FP include data obtained by combining the room space data so that a plurality of rooms are arranged in a predetermined arrangement, and the remaining ones include single room data. For example, as shown in FIG. 7, a functional space pattern FP (group GR _A1 ) obtained by combining a Japanese-style room with 8 tatami mats, a closet with 2 tatami mats, and a floor with 2 tatami mats for one 10 tatami mat area. Functional space pattern FP (group G)
R _A4 ) is prepared.

The functional space patterns FP are divided into groups according to the sizes, shapes, and functions of the functional space areas A to G occupied by the functional space patterns FP.
For example, among the functional space areas A to G shown in FIG.
B, E, and G are functional space areas of a general living room, the functional space area C is a sanitary room area, and the functional space area D is a toilet area. For general room functional spatial area A, a plurality of functional spatial pattern FP as described above is classified as a group GR _A. Each of the functional space areas D serving as the toilet areas is configured by a functional space pattern FR including single room space data.

In the skeleton space pattern SP, FIG.
As shown in FIG. 7, the layout pattern TP of the functional space areas A to G is designed and determined in advance, and the functional space areas A to G
Then, the layout is determined by selecting and arranging the functional space pattern FP designed in advance. A plurality or one arrangement pattern TP of the functional space areas A to G in the skeleton space pattern SP is prepared for one skeleton space pattern SP.

The detailed information storage means 8 in FIG. 2 stores information on outer wall fittings such as outer wall panels and opening frames, and information on interior fittings and equipment. The integrated information storage means 9 stores integrated information for each skeleton space pattern SP, integrated information for each functional space pattern FP, and integrated information for fittings, equipment, interior materials, exterior materials, and the like.

The skeleton space selection means 10 displays the skeleton space pattern SP on the screen 3a of the display device 3,
This is a means for selecting an arbitrary skeleton space pattern SP by a predetermined input. The skeleton space selection means 10 includes a site input / buildable area determination unit 10a, a silhouette pattern selection unit 10b and a skeleton space space selection unit 10c for respectively selecting the silhouette pattern RP and the skeleton space pattern SP, and includes a silhouette. A pattern search function 10d is provided. The site input / buildable area determination unit 10a displays a site, a neighboring land, a road, an approach, a shape and a position of an on-site arrangement on a screen according to the input, and determines a buildable area R in the site to display the screen. And a drawing function for drawing an arbitrary figure on the screen. Silhouette pattern search function 10
d, by selecting and arranging a schematic shape and type of a main room in the site shape displayed on the screen, a plurality or single skeleton space pattern SP or silhouette pattern RP corresponding to the condition is selected and displayed on the screen. Function.

The function space selecting means 11 designates the areas A to G (FIG. 6) in which the function space patterns FP are arranged with respect to the skeleton space pattern SP displayed on the screen, and selects the type of the function space patterns FP to be arranged. This is a means for generating plan information D in which the designated functional space pattern FP is combined with the skeleton space pattern SP by issuing a command, and displaying the combined figure on the screen 3a.

The function units 27 to 29 of the display / selection means 5 and the icon form changing unit 30 will be described with reference to FIG. The display / selection unit 5 displays, on the screen of the display device 3, a plane plan diagram 50 in which a functional space pattern is combined with a skeleton space pattern, and a mode selection icon 51, and in a state where any mode selection icon 51 is selected,
By positioning the cursor 52 on the screen on the plan view 50, the element specified by the cursor 52 in the mode selected by the mode selection icon 51 is displayed.
This is shown by a partial change in the display of colors in the plan view 52. The components constituting the display / selection means 5 will be described.

Display function unit 2 such as a plan view of display / selection means 5
Reference numeral 7 denotes a functional unit that displays a plan view 52 in which the functional space pattern FP is combined with the skeleton space pattern SP (FIG. 4) on the screen 3a of the display device 3. The mode selection icon display function unit 28 is a function unit that displays a mode selection icon 51 on the screen 3a. The drawing designation unit display change function unit 29 places the cursor 52 on the screen 3a on the plane plan diagram 50 in a mode selection state with an arbitrary mode selection icon 51, and is designated by the cursor 52 in that mode. Elements are shown in Plan Plan 5
2 is a functional unit indicated by a change in display of a partial color. The icon form changing unit 30 changes a part of the display form of the mode selection icon 51 in accordance with the degree selected by the element selecting unit 26 or the like in the process of designing one plan by the building design device. This is a means for changing the mode that can be selected according to the change. The element selection unit 26 is a plan view 5
By performing a predetermined input such as a click operation on an element specified by the cursor 52 on 0, that is, an element specified by a change in color, this is a means for selecting a selectable element for that element. . The element selection unit 26 has the selection units 10 to 14 as described above. More detailed elements of the display / selection means 5 will be described together with the following description of the building design method.

In FIG. 2, the rule checking means 24 comprises:
Whether or not the building of the plan specified by the element selected by the display / selection means 5 conforms to the predetermined matter of the building regulations by selecting the icon 51 displayed on the screen 3a of the display device 3 This is a means for displaying on the screen 3a of the display device 3 a diagram showing the building and the display of the compliance with the law in addition. The approval means 25, for the created plan,
This is a means for displaying a screen asking for approval of the approver on the display means 3 and recording the input of approval. Other units 12 to 18 (FIG. 2) constituting the building design apparatus will be described together with the following description of the building design method.

A building design method using the building design apparatus will be described with reference to screen examples shown in FIGS. 8 to 10 are flowcharts illustrating an example of a design method performed using this building design apparatus, and the description of the screen example is partially different. When the building design apparatus is activated and zoning processing is selected, a zoning initial screen shown in FIG. 11 appears.
In the zoning initial screen, as the key display 53, an input key for selecting a mode for setting various conditions, an input key for arranging a building element including a site, and an input key for activating a silhouette search function Is displayed.
As a selection key in the condition setting mode, there is a key displayed as "condition setting". The input keys for the building element arrangement include “site rotation”, “carport”, “service yard”, “building position”, “entrance”, “stairs”, “bathroom, lavatory”, “toilet”, “LDK”. , "Living room,""Japanese-styleroom,"
There is a key displayed as a character. For the silhouette search, there is a key displayed as “silhouette search”.

When the condition setting mode is selected, a zoning condition setting window 54 appears on the screen, as shown in FIG.
4a appears. This window 54 is prepared for each product type which is a plan classification of a building such as a house, and the window 54 of an arbitrary product can be selected by a predetermined input. As the selection display 54a of various conditions in this window 54,
For example, snow cover section, heat insulation section, roof shape, roof slope, 1
There are floor ceiling height, 1st floor specification, 2nd floor specification, earth bearing capacity, barrier-free, makeup type, etc. These selection displays 54
In a, an initial value which is a general value is shown, and the initial value can be changed by a predetermined input. After setting the zoning conditions in this way, zoning is specifically performed.

As shown in FIG. 13, in this zoning process, the approximate position of the entrance, the LDK, etc. is shown with respect to the site area display R and the building position display Q appearing on the screen. This operation is performed, for example, by selecting the key display 53 such as "entrance" and copying or moving the area display M such as the entrance displayed on the screen by a drop and drag operation or the like.

As described above, after the zoning is completed, by selecting the key display 53 of “silhouette search”,
As shown in FIG. 4, a plane plan diagram 50 corresponding to the zoning content and the condition setting content is displayed on the screen 3a. Also, a plurality of mode selection icons 51 are displayed on the same screen 3a.
Is displayed. Plan plan view 50 displayed at this time
Is a combination of the skeleton space pattern and the initially set functional space pattern. Further, in the plan plan view 50, the positions of the load-bearing walls and columns, which are elements that cannot be changed as the skeleton space pattern, are displayed as black-painted portions and the like. As the mode selection icon 51, for example,
Function spatial pattern selection icon 51 _1, interior selection icon 51 _2, inner fittings selection icon 51 _3, outer fittings selection icon 51 _4, furniture display icon 51 _5, other equipment selection icon 51 _6, legal check icon _517, environmental Check icon 51 ₈ and sunshine check icon 5
1 ₉ is displayed.

When an arbitrary icon 51 is selected on this screen, a mode corresponding to the icon 51 is set. For example, if you select the function space pattern selection icon 51 _1, function space pattern is modifiable. FIG.
Then, as one functional space pattern range, Japanese-style room and LD
K, and by moving the cursor 52 within the function space pattern range, the portion of the function space pattern range currently selected by the cursor 52 is
Indicated by color change. The color change is represented as a shaded inverted display or the like. FIG. 15 shows the color change portion by oblique lines. When the cursor 52 is moved to another part of the functional space pattern range, the part of the functional space pattern range designated by the cursor 52 at that time is indicated by a change in color.

When a predetermined input (for example, a click operation) is performed in a state where the functional space pattern range is designated, a window 55 displaying selectable functional space patterns is displayed as shown in an example in FIG. It appears on the screen 3a. By selecting a desired function space pattern from within this window 55, the function space pattern of the location designated by the range is determined. When the window 55 is closed after the selection of the functional space pattern, the plan view 52 changes to a diagram reflecting the functional space pattern as shown in FIG.

[0036] After definite the function space patterns, selecting a décor selection icon 51 _2, as shown in FIG. 18, interior of a portion indicated by the cursor 52 is selectable modes. This mode is a detailed selection mode for a part of the functional space. Also at this time, the location indicated by the cursor 52 is
The entire range is indicated by a color change. This cursor 5
When a predetermined input (for example, a click operation) is performed in the state specified in 2, a window 56 showing a selectable fitting at the specified location appears. In the example of FIG. 18, the designated range is a portion between floors, and the portion between the floors can be selected as a closet or between floors.

[0037] When the interior becomes a certain fixed step, as shown in FIG. 19, interior selection icon 51 _2, a change in part of the display mode. In this changed state, a mode in which a more detailed element can be selected than before the change is set. In FIG. 19, the cursor 52 indicates a Japanese-style room, and by performing a predetermined input, a window 57 showing finishing elements (for example, finishing of floors and walls) for the Japanese-style room appears. By selecting the contents shown in this window 57, the finishing element is determined.

As shown in FIG. 20, in the state selects the internal fittings selected icon 51 _3, selection of fittings for interior doors or the like of the building interior is possible modes. In this mode, when the cursor 52 is moved to a position such as a door, the entire door indicated by the cursor 52 is indicated by a change in color. By performing a predetermined input in the state specified by the cursor 52 in this way, a window 58 showing what can be selected as an interior fitting at the specified portion appears on the screen. By selecting the content shown in this window 58, a fitting such as a door is determined.

As shown in FIG. 21, the equipment selection icon 5
In a state where ₁₆ is selected, a mode in which facilities such as kitchen equipment and a bathtub can be selected is set. In this mode, when the cursor 52 is moved to the position of the equipment, the cursor 52 is moved.
The whole of the equipment indicated by is indicated by a color change. By performing a predetermined input in the state specified by the cursor 52 in this way, a window 59 showing what can be selected as the equipment of the specified portion appears on the screen. This window 59
By selecting the contents shown in the above, the equipment such as the system kitchen is determined. At this stage, the equipment model has been determined. With such equipment model is determined, equipment selection icon 51 _6, as shown in FIG. 22, a change in part of the display mode. In this changed state, a mode in which a more detailed element can be selected than before the change is set. In FIG. 22, the cursor 52 indicates the same equipment as described above, and by performing a predetermined input, a specification change element (for example, the right and left of a cabinet door, a door color, a faucet model, etc.) of the equipment is specified.
Appears in the window 60. This window 6
By selecting the content indicated by 0, the specification change element is determined.

As shown in FIG. 23, in the state where the selected outer wall panel selection icon 51 _4, the selection of the outer wall panel is possible modes. In this mode, when the cursor 52 is moved to the position of the outer wall, the entire outer wall indicated by the cursor 52 is indicated by a change in color. By performing a predetermined input in the state specified by the cursor 52 in this way, a window 61 showing what can be selected as the outer wall of the specified portion appears on the screen. At this stage, window 61
Are contents for selecting basic contents such as a panel width and an opening type as the outer wall panel. By selecting the content shown in this window 61, the outline of the outer wall is determined. For example, if the basic module width is P,
Factors such as whether to use a 2P-width outer wall panel, two 1P-width outer wall panels, or windows, doors, and other fittings are determined. After the outline of the outer wall is defined in this manner, when a predetermined input is performed, a specific outer wall panel selection window 62 is set within the defined range of the outline.
Appears on the screen. By selecting the contents shown in this window 62, the type of the outer wall panel is specifically determined.

As shown in FIG. 25, some of the icons 51 are arranged by selecting a predetermined element in a plan being created or by performing a predetermined input operation. changes to introspection Perth display icon 51 _10. In this example, the original equipment placement icon 51 ₆ changes to introspection Perth display icon 51 _10. By selecting this introspection Perth display icon 51 _10, the viewpoint designating cursor 52A introspection Perth screen appears. By moving the viewpoint designating cursor 52A to an arbitrary position in the plan view 50, an introspective perspective view based on the viewpoint indicated by the cursor 52A is displayed on the screen 3a as shown in FIG. 26, for example. In addition, by moving the position of the cursor 52A to a predetermined position or performing a predetermined input operation, as shown in FIG. 27, an entire perspective view of an arbitrary floor is displayed on the screen 3a.

FIG. 28 shows a state in which an external perspective view of the created plan is displayed on the screen 3a. The perspective view is
It is displayed by performing one of the icons 51 or a predetermined input operation.

As shown in FIG. 29, selecting the legal check icon _517, the screen 3a of the display device 3 changes to regulations check screen. The legislation check function, a check function of the outer wall retracted position, is provided with a diagonal line checking, in the state where the regulations check icon ₅₁₇ is in the on-site check forms, checks of the outer wall retracted position as shown in FIG. 29 Is performed. On the check screen of the retreat position of the outer wall, a site map and a diagram of the building area are shown.
Performed at 0. When a predetermined input is performed or the process before the rule check in the determined order (in this example, the check of the outer wall retreat position) is completed, the rule check icon 51 is displayed.
₇ , the display mode changes as shown in FIG. In the figure, the screen is changed to a diagonal line check screen. By selecting the legal check icon ₅₁₇ of this embodiment, as shown in the figure, a plane shown by oblique lines of the north hatched such as display of Regulated presence, is a diagram illustrating a building part projecting from the plane Appear on the screen 3a.

Note that, from the start of the building design apparatus, FIG.
The screen display or processing up to the first zoning screen is performed as follows. When this building design device is started, an initial screen is displayed on the display device 3 as shown in a schematic flowchart in FIG. 8 (S1). On the initial screen, a key display (not shown) to which the characters of “site”, “building”, “property”, and “end” are respectively displayed as a menu for the next processing, and this key display is displayed with a mouse or the like By selecting and selecting a menu, the corresponding process is activated. When "Site" is selected, the zoning shown in FIG.
Then, a skeleton space pattern selection process (S4) for performing a process until a skeleton space pattern is selected is started. When "building" is selected, the first floor plan setting and the second floor plan setting (building setting) processing for the skeleton space pattern SP selected in the "site" processing (S5)
Starts. When "property" is selected, processing for setting information about the owner and setting for the basic specifications of the building starts. When "end" is selected, the process ends.

The integrated information is stored in the integrated information display means 16 shown in FIG.
Is displayed as follows by the information stored in the integrated information storage means 9 and added to the plan information D. For example, a screen (not shown) for displaying each functional space pattern FP, integrated information P which is a total specification of the pattern FP.
D is displayed, and individual skeleton space patterns SP
Is also displayed on the screen displaying the integration information (not shown) for the pattern FP. Further, additional integrated information (not shown) of each fitting, equipment, interior, and the like is displayed on a screen for selecting these fittings and the like. The additional integration information may be an additional price or a difference from a standard product. The sum of the integrated information of the skeleton space pattern SP, the integrated information of the functional space pattern FP, and the additional integrated information is the integrated price of the entire building. Note that the integration information may be displayed or not displayed on each screen.

The plan information D created and determined in this way is stored in the created plan information storing means 18 serving as a database. If a change is required, the necessary plan information D is called from the created plan information storage means 18 and changed. After the contract is fixed, the factory obtains information such as the skeleton space pattern, the functional space pattern, the code numbers of the exterior wall fittings, the equipment, etc. from the created plan information storage means 18 and prepares each unit. The information necessary for production, such as a plan, a partition, and an execution budget, is collected by combining the accumulated information in the above.

Thus, according to this building design apparatus,
In order to define the silhouette of the house (outer shape) and the space such as each room with the skeleton space pattern SP and the functional space pattern FP, and to construct the plan information D by combining these space patterns SP and FP, By designing the skeleton space pattern SP and the functional space pattern FP, preparing variations of the space patterns SP and FP, and combining them, many plan variations can be selected for the customer. In addition, by preparing a small number of spatial patterns SP and FP, the producer can easily manage the production information, including the production information, and reduce the period and cost involved in information conversion. In addition, by preparing accurate information, it is possible to contribute to a reduction in a failure cost due to an information conversion error. Also, the spatial pattern S
By managing P and FP, it is possible to analyze frequently-appearing plans, and it is possible to plan products that meet customer needs. In other words, this building design apparatus creates the plan information D with the skeleton space pattern SP in which the structural parts are packed and the functional space pattern FP that realizes a customer-oriented floor plan. Sometimes, the skeleton space pattern SP, the functional space arrangement area pattern TP therein, and the functional space pattern F
By designing P, it is possible for business establishments to create plans and estimates to be proposed to customers without the need for advanced design technology, and to speed up the proposal. In addition, by accumulating the employment information for each pattern, it can be expected that the hot selling plan information for each area can be easily analyzed. In addition, by accumulating such information, when developing a new building plan, it is only necessary to develop the difference from the conventional information, and the building development work is reduced, and the product development period is reduced. By shortening it, it can be expected that it can respond quickly to market demands.

[0048]

According to the building design apparatus of the present invention, a standardized building such as an industrial house can be easily and quickly designed from planning to creation of component information. In particular, the contents selected on the screen can be understood at a glance, the operation can be performed quickly, and an efficient design can be performed. Therefore, the following effects by the spatial patterning proposed earlier become more effective. By the spatial patterning, it is possible to increase the number of variations of the plan as compared with the conventional plan type house, and it is easy to create the plan. For example, only a sales person can propose a plan to submit an estimate. When a skeleton space pattern and a functional space pattern are prepared to some extent, information on those space patterns can be used to develop a new building plan, and the development period can be shortened. By preparing the skeleton space pattern and the functional space pattern of the three-dimensional model, and preparing the parts necessary for production and their combination design, production preparation can be performed without complicated information processing. The amount of information processing in the production preparation can be minimized, and the failure cost of information processing error due to performing information processing for each property can be minimized. Being able to prepare for production in a sold space pattern allows the required quantities of parts and materials that need to be treated at the time of receiving an order to be grasped, thereby minimizing production and lead time. By collecting the sales result data of the skeleton space pattern and the functional space pattern, it becomes possible to analyze the selling pattern and the combination pattern of the selling patterns. For this reason, it is possible to increase the accuracy of verification of a temporary establishment plan at the planning stage of a new planned building.

[Brief description of the drawings]

FIG. 1 is a block diagram showing a conceptual configuration of a building design device according to an embodiment of the present invention.

FIG. 2 is a block diagram showing details of a conceptual configuration of the building design device.

FIG. 3 is a block diagram showing a conceptual configuration of a display / selection unit in the building design device.

FIG. 4 is an explanatory diagram showing a relationship example of each pattern by the building design apparatus.

FIG. 5 is an explanatory diagram showing a part of FIG. 4 in an enlarged manner.

FIG. 6 is an explanatory view showing another part of FIG. 4 in an enlarged manner.

FIG. 7 is an explanatory diagram showing a further another part of FIG. 4 in an enlarged manner.

FIG. 8 is a flowchart showing a schematic operation of the building design apparatus.

9 is a flowchart showing an example of details of a site / skeleton pattern selection process in the flowchart of FIG. 8;

FIG. 10 is a flowchart showing an example of details of a building setting process in the flowchart of FIG. 8;

FIG. 11 is an explanatory diagram showing an example of an initial screen in a zoning process by the building design device.

FIG. 12 is an explanatory diagram showing an example of a condition setting screen in the zoning process.

FIG. 13 is an explanatory diagram showing an example of a screen as a result of the zoning process.

FIG. 14 is an explanatory diagram of a screen example of a plan view in which a functional space pattern is combined with a skeleton space pattern in the building design apparatus.

FIG. 15 is an explanatory diagram showing an example of a screen in a selected state of a functional space pattern in the plan view.

FIG. 16 is an explanatory diagram of a screen example in which a window for selecting a functional space pattern in the plan view is displayed.

FIG. 17 is an explanatory diagram of a screen example showing a mode after a functional space pattern is selected in the plan view.

FIG. 18 is an explanatory diagram of an example of an interior selection screen in the plan view.

FIG. 19 is an explanatory diagram of a screen example in which an interior material selection window in the plan view is displayed.

FIG. 20 is an explanatory diagram of a screen example in which an inner fitting selection window in the plan view is displayed.

FIG. 21 is an explanatory diagram of an example of a screen on which a window for selecting equipment is displayed in the plan view.

FIG. 22 is an explanatory diagram of an example of a screen on which a window for selecting details of equipment in the plan view is displayed.

FIG. 23 is an explanatory diagram of an example of a screen on which a selection window of an outer wall panel format in the plan view is displayed.

FIG. 24 is an explanatory diagram of an example of a screen on which an outer wall panel selection window in the plan view is displayed.

FIG. 25 is an explanatory diagram of a screen example in which a viewpoint for creating an introspective perspective view in the plan view is displayed.

FIG. 26 is an explanatory diagram of a screen example of the introspective perspective diagram.

FIG. 27 is an explanatory diagram of a screen example of an introspective perspective view showing the entire first floor of a building.

FIG. 28 is an explanatory diagram of a screen example of an external perspective view.

FIG. 29 is an explanatory diagram of an example of an outer wall retreat check screen of a rule check.

FIG. 30 is an explanatory diagram of an example of a diagonal-line chuck screen in a rule check.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 2 ... Input apparatus 3 ... Display device 3a ... Screen 5 ... Display / selection means 6 ... Skeleton space pattern storage means 7 ... Functional space pattern storage means 8 ... Detailed information storage means 9 ... Integration information storage means 10 ... Skeleton space selection means 11 ... Function space selection means 26 ... Element selection unit 27 ... Plan view etc. display function unit 28 ... Mode selection icon display function unit 29 ... Drawing designation unit display change function unit 30 ... Icon form change function unit 50 ... Plan plan view 51 ... Mode Selection icon 52 ... Cursor RP ... Silhouette pattern SP ... Skeleton space pattern TP ... Functional space area arrangement pattern FP ... Functional space pattern GR ... Group division

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Akinori Sugimoto 3-5-5 Umeda, Kita-ku, Osaka-shi, Osaka Daiwa House Industry Co., Ltd. (72) Inventor Yusuke Ikeda 3-chome Umeda, Kita-ku, Osaka, Osaka No. 3-5 Daiwa House Industry Co., Ltd. (72) Inventor Chiaki Sakai 3-5-5 Umeda Kita-ku, Osaka City, Osaka Prefecture Daiwa House Industry Co., Ltd. (72) Inventor Koji Hatta Osaka City, Osaka Prefecture Kita 3-5-5 Umeda-ku Daiwa House Industry Co., Ltd. (72) Inventor Hiroshi Doi 3-5-5 Umeda Kita-ku, Osaka-shi, Osaka Daiwa House Industry Co., Ltd. (72) Yoshitaka Takezoe Osaka 3-5 Umeda, Kita-ku, Osaka Daiwa House Industry Co., Ltd. F term (reference) 2E025 AA01 AA22 5B046 AA03 CA06 DA02 DA10 FA02 FA16 GA01 HA04 HA05 HA06 HA09 KA0 6 KA07

Claims (9)

[Claims] 1. Skeleton space pattern storage means for storing a plurality of types of skeleton space patterns that define information on the outer shape and structural parts of the entire building; and a three-dimensional model and part information of a single or a plurality of combined room spaces. Function space pattern storage means storing a plurality of types of determined function space patterns, and as detailed information combined with the function space pattern, an outer wall panel, an interior fitting, equipment, and detailed information storage means storing information of interior materials. And display / selection means for displaying the information stored in each of these storage means on the screen of the display device, and setting an element selected from the display contents as a design element of the building. , At least, on the screen of the display device, a planar Displays and Figure, and a mode selection icon,
In a mode selection state by an arbitrary mode selection icon, by positioning a cursor on the screen on the plane plan view,
In the selection mode, the element designated by the cursor is indicated by a change in the display of a partial color of the plan view. 2. The building design apparatus according to claim 1, wherein the element indicated by a partial color change by the designation of the cursor in the display / selection means includes a functional space pattern, a room space, a wall, and a door. 3. The display / selection means includes a mode selectable mode, a function space pattern selection mode, a part of the function space detailed selection mode, an outer wall panel selection mode, and a facility device selection mode. The building design apparatus according to claim 1 or 2, further comprising: 4. The mode selection icon according to claim 1, wherein a part of the display form changes according to the degree of selection, and the selectable mode changes according to the change. The building design apparatus according to any one of the above. 5. The display / selection means includes a display function unit for displaying a plan view in which a function space pattern is combined with a skeleton space pattern on a screen of a display device, and a mode selection icon on the screen. In a mode selection icon display function unit for displaying a, and in a mode selection state by an arbitrary mode selection icon, by positioning a cursor on the screen on the plane plan view, an element specified by the cursor in the selection mode is displayed. , A drawing designating part display change function part shown by a partial color change of the plan view, and a predetermined input for an element designated by this color change, thereby selecting a selectable element for that element An element selection unit for selecting a mode, and changing a part of the display mode of the mode selection icon according to the degree selected by the element selection unit. The building design apparatus according to claim 4, further comprising: an icon form changing unit that changes a selectable mode according to the change. 6. The display / selection means performs a predetermined input in a state specified by the cursor, thereby displaying a selectable element corresponding to the specified content in a window or pull-down menu. The building design apparatus according to any one of claims 1 to 5, wherein is displayed on a screen. 7. The display / selection unit according to claim 1, wherein the plane plan portion to be displayed and each of the other figures are displayed as a figure in which an already selected element is reflected. A building design apparatus according to item 1. 8. It is determined whether or not the building specified by the element selected by the display / selection means conforms to the building regulations by selecting an icon displayed on the screen of the display device. The building design apparatus according to any one of claims 1 to 7, further comprising: a rule checking unit that displays the diagram and the display of the presence / absence of compliance with the regulations on the screen of the display device. 9. The skeleton space pattern storage means,
The information processing device provided with the functional space pattern storage means and the detailed information storage means and the information processing device provided with the display / selection means are separated from each other, and are connected via a public or dedicated communication line. The building design apparatus according to any one of claims 1 to 8, wherein the building design apparatus is connected.