JP3578499B2 - Design support equipment - Google Patents

Description

[0001]
[Industrial applications]
The present invention relates to a design support device for designing a house in which a wall is composed of wall panels.
[0002]
[Prior art]
In recent years, a CAD (computer aided design) system as a design support device has come to be used in the design of a house.
In a conventional CAD system for a house design, the design of a house can be assisted under the instruction of an operator, and the design of the house can be saved. In particular, the designed house can be output as various drawings, and it has been possible to greatly reduce labor in producing the drawings.
[0003]
In addition, in the design of a house, a basic unit length is set in advance based on customs, human height, etc., and along a grid line drawn vertically and horizontally for every integral number of the basic unit length. It is common practice to determine the arrangement of walls and the like.
By designing along the grid lines, the design of the CAD system can be saved.
[0004]
Some houses are constructed by a panel method in which floors, walls, roofs, and the like are formed from panels such as floor panels, wall panels, and roof panels.
In the panel construction method, columns and beams are not often used, and the strength of the house is mainly maintained by the panels.
Therefore, when designing a house using the above-described panel construction method, it is necessary to determine the arrangement of walls and the like so as to maintain the strength of the house, and to allocate wall panels to the arranged walls.
[0005]
Then, by arranging the panels along the grid lines and using a panel having a shape based on an integral length of the basic unit length, the panel allocation in the CAD system can be saved.
[0006]
[Problems to be solved by the invention]
By the way, in designing a house, it is necessary to secure the strength of a skeleton such as a pillar, a beam, or a load-bearing wall at the time of design in order to maintain the strength of the house, and it is necessary to set the strength and arrangement of these skeletons.
[0007]
In the panel construction method, the strength of the house is maintained mainly by the panels as described above.
Therefore, when designing a house using the above-described panel construction method, it is necessary to determine the arrangement of walls and the like so as to maintain the strength of the house, and to allocate wall panels to the arranged walls.
[0008]
However, the conventional CAD system for a house is not necessarily compatible with the panel construction method. Even if the panel can be allocated on the CAD system, a wall panel of a predetermined shape is simply allocated to a designed wall. By itself, it was not always possible to obtain the highest strength obtained from a combination of wall panels having a given strength.
[0009]
Also, simply allocating a wall panel of a predetermined shape to a wall may cause problems in terms of workability, and in the worst case, if the layout of the wall panels is not changed at the building site, It may not be possible to actually perform the construction.
Also, as described above, in the panel construction method, the wall basically receives the load of the upper structure, but the wall is provided with openings such as windows and doorways that cannot receive the load. Become.
[0010]
However, since the upper structure also exists on the opening, the left and right side wall panels of the opening are used as pillars, and the wall panel acting as a beam on the opening (hereinafter referred to as a small wall panel) or a beam-like wall panel is used. It is necessary to arrange a member (hereinafter referred to as “magsa”), and based on the span of the opening, the required strength of the wall provided with the opening, and the like, it is necessary to arrange the small wall panel and the magsa, As described above, simply allocating a wall panel having a predetermined shape to a designed wall cannot secure the strength at the opening.
[0011]
The present invention has been made in view of the above circumstances, and when designing a house constructed by a panel construction method, it is possible to set a divided area of a wall to which a wall panel is to be allocated in consideration of the arrangement of openings. It is an object of the present invention to provide a design support apparatus capable of performing the above.
[0012]
[Means for Solving the Problems]
As shown in FIG. 1, the design support apparatus according to claim 1 of the present invention is for designing a building whose walls are mainly composed of wall panels, and based on input data, A design support apparatus for allocating wall panels to wall regions arranged along grid lines drawn vertically and horizontally for each reference unit length, the shape and arrangement of the wall regions, windows and entrances and exits in the wall regions A design data storage means a storing the shape and arrangement of the opening area in which the openings are arranged, and a wall over the opening area stored in the design data storage means a so as to cover the opening area. Small wall area generating means b for setting a small wall area in the area, and left and right side edges of the small wall area set in the small wall area generating means b are arranged on the grid line orthogonal to the wall area. Not along the horizontal direction of the small wall area The width is extended, and the side edge of the small wall area is arranged on the grid line orthogonal to the wall area. The area adjusting means c corresponds to the width of the small wall area extended by the area adjusting means c. Adjusting region generating means d for setting an opening adjusting region to the left and right of the opening region and below the small wall region, wherein an integrated small wall member having a predetermined strength is provided in the small wall region above the opening region. Disposing the support member for supporting the end of the small wall member in the opening adjustment region is a means for solving the above-mentioned problem.
[0013]
The design support apparatus according to a second aspect of the present invention determines whether a wall area to which a wall panel is to be assigned is an inner wall or an outer wall based on the layout data of the wall area stored in the design data storage means a. It has inside / outside determination means e, and when the wall area is determined to be an inner wall by the inside / outside determination means e, the small wall area generation means b is placed above the opening area stored in the design data storage means a. A small wall area is set in the wall area so as to cover the opening area, and the area adjusting means c determines that the left and right side edges of the small wall area set in the small wall area generating means b are orthogonal to the wall area. When not arranged on the grid line, extend the width of the small wall region along the horizontal direction, arrange the side edges of the opening region on the grid line orthogonal to the wall region, The adjustment area generating means d is the area adjustment means. According to the width of the small wall region extended by the above, an opening adjustment region is set on the left and right of the opening region and below the small wall region, and when the inside / outside determination means e determines that the wall region is the outside wall, The adjusting area generating means d sets an opening adjusting area having a predetermined width in the left and right wall areas of the opening area stored in the design data storing means a, and the area adjusting means c sets the adjusting area generating means. When the side edge of the opening adjustment region set to d on the side opposite to the opening region is not arranged on the grid line orthogonal to the wall region, the width of the opening adjustment region along the horizontal direction is extended. Then, the side edges of the opening adjustment area are arranged on the grid line orthogonal to the wall area, and the small wall area generating means b places the opening area and the opening adjustment area on the opening area and the opening adjustment area. I will cover the whole area To set a small wall area in the wall area was means for solving the above-described problem.
[0014]
[Action]
According to the configuration of the first aspect, the small wall area generating means b, based on the data of the design data storage means a, places the opening on the opening area of the wall area arranged based on the grid lines. A small wall region is generated so as to cover the region.
Next, the area adjusting means c extends the width of the small wall area in the horizontal direction, and arranges the side edges of the small wall area on grid lines orthogonal to the wall area.
[0015]
Then, the adjustment area generating means d sets the opening adjustment area to the left and right of the opening area and below the small wall area corresponding to the width of the small wall area extended as described above.
That is, for example, the opening area is often formed corresponding to the size of a fitting such as a window sash or a door sash, but the size of the fitting does not always correspond to the reference unit length. Therefore, when an attempt is made to allocate a wall panel having a shape corresponding to the reference unit length to a wall region having a shape corresponding to the reference unit length, a shift occurs in the opening region.
[0016]
Therefore, as described above, a small wall region is generated on the opening region, the width of the small wall region is extended, and both side edges of the small wall region are aligned with the grid lines, and the width extended in this manner is reduced. By providing an opening adjustment region corresponding to the width of the small wall region on the left and right of the opening region below the small wall region having the small wall region, a shift with respect to the grid line is absorbed by the opening adjustment region, and a wall to both sides of the opening region is provided. Panel allocation can be facilitated.
[0017]
In addition, by aligning the positions of both side edges of the small wall area with the grid lines as described above, the small wall area also has a size based on the reference unit length. Standardized small wall panels based on length can be allocated.
In addition, in the adjustment area, for example, a plate-shaped member that can easily adjust the width by cutting or the like will be disposed, and the plate-shaped member is disposed below the left and right ends of the small wall panel, It becomes a support member for supporting the small wall panel from the lower side of the small wall panel, and the strength of the wall on the opening area can be increased.
[0018]
That is, the small wall panel is fixed by joining its left and right ends to the side edges of the wall panels arranged on the left and right of the small wall panel. By arranging the support member under the end of the small wall panel, the support member reinforces the joint between the left and right ends of the small wall panel and the side edges of the wall panel.
[0019]
Further, in the above-described configuration, when the side edges of the small wall panel covering the opening region coincide with the grid lines, the opening adjustment region may not be formed, and the side edges of the small wall panel and the grid lines may not be formed. When the distance is short, the width of the opening adjustment region becomes narrow, and there is a possibility that a support member having a relatively low strength is disposed in the opening adjustment region.
[0020]
Therefore, according to the configuration of the second aspect, first, the inside / outside determination means e divides the wall region into an outer wall requiring higher strength than the inner wall and an inner wall.
When the wall region is the inner wall, the support member disposed in the opening adjustment region is basically regarded as an adjustment member for making the width of the opening region correspond to the reference unit length, and the same as in claim 1 above. , A small wall area and an aperture adjustment area are generated in the wall area.
[0021]
When the wall region is an outer wall, the support members arranged in the opening adjustment region are basically regarded as members for supporting the small wall panel, and first, the support members are provided on the left and right sides of the opening region by the opening region generation means. To create an open area having the minimum width required.
Then, the area adjusting means extends the width of the opening adjustment area, and the width of the area obtained by combining the opening area and the left and right opening adjustment areas corresponds to the grid line. Above, the small wall region generating means generates a small wall region.
[0022]
In the manner described above, on the outer wall that requires relatively high strength, the support member having a predetermined width or more is always disposed below the left and right ends of the small wall panel, and the opening area and the opening adjustment area are aligned. The width of the region, that is, the width of the small wall panel corresponds to the grid line, and the inner wall is not necessarily provided with a support member capable of supporting the small wall panel. The width of the panel can be made to correspond to the grid line, so that an unnecessary large aperture adjustment region is not disposed.
[0023]
【Example】
An embodiment of the present invention will be described below with reference to the drawings.
The design support apparatus of this embodiment is used for designing a house in which floors, walls, roofs, and the like are constructed from panels.
The panel is formed by assembling a wooden core into a rectangular frame, forming a frame, and attaching a face material to at least one surface of the frame.
[0024]
The design support device has a design input function for inputting the layout of a house, the arrangement of various fittings and various finishing members, and the shape of a roof (design of a house), and a floor and a wall input in the design. A structure determining function for arranging a panel on a roof or the like, arranging other members serving as a skeleton and members associated with the member and the panel, and checking a necessary strength of the house, and a design input and a structure determining. And a multiplying function for obtaining an estimate of the house to be designed based on the members allocated in the above.
[0025]
As shown in FIG. 2, the design support apparatus of this embodiment has a system configuration as a so-called general computer system as a CAD system, and includes a CPU (central processing unit), a RAM (random access unit) not shown. ), an arithmetic processing unit (computer body) 1 including a ROM (read only memory), a storage device 2 including a hard disk drive, and an input device 3 including a keyboard and a pointing device such as a mouse, a tablet, and a digitizer. And a display device 4 including a display such as a CRT display, and a hard copy output device 5 including a printer and a plotter.
[0026]
The storage device 2 stores various programs used in the design support device and various data used in the programs.
The above-mentioned various programs are basically a well-known CAD system, and are for designing a house on a design support apparatus.
Further, the various data is data of various members allocated to the house when designing the house on the design support device, and for example, various data such as shapes of various members and prices are stored. .
[0027]
Further, the storage device 2 stores design data generated by the design operation performed at each stage of the design, structure, integration, and the like.
Further, in this embodiment, in the design function, when deciding a floor plan, as shown in FIG. 3, the area 9 of the house room to be designed (living room, dining room, kitchen, toilet, bath, living room, storage, In addition, a region surrounded by a wall is basically included), and an outer peripheral line of the room region 9 is set to a wall line 10 (shown in FIG. 3). , An opening such as an entrance (an opening area 11 shown in FIG. 5 and the like) is arranged, and the arrangement of the wall line 10 including the opening is stored.
[0028]
In addition, like the plane arrangement of the wall k shown in FIG. 4, in the arrangement of these wall lines 10, that is, in the arrangement of the walls k..., A reference unit length of about 1 m (hereinafter referred to as 1M (module)). Each wall line 10 is arranged on a grid line g...
In addition, the wall panels arranged on the wall line 10 basically have a horizontal width of an integral multiple of 1/4 of the above 1M, except for a wall panel arranged at an intersection portion of the wall line 10 described later. It has a width along the direction.
[0029]
Note that, in exceptional cases, the wall line 10 may not be arranged on the grid line g... In addition, as a member replacing the wall panel or the wall panel, a member whose horizontal length is not an integral multiple of the above ＭM Is sometimes used.
In addition, since 1/4 of 1M is basically handled as the minimum unit as described above (exceptionally, 1/8 may be the minimum unit), 1/4 of 1M is substantially the standard. It is a unit length.
[0030]
These wall lines 10 are divided at end points, L-shaped, T-shaped, and cross-shaped intersections, and each is a separate wall line 10.
In addition, each wall line 10 that intersects at the intersection has a predetermined wall thickness, and the winning or losing of the interaction between the walls at each end point and each intersection is set, and the position of the end face of the wall at the intersection, that is, The end point of each divided wall line 10 is determined.
The height of each wall arranged on each wall line 10 is set in advance based on the structure of the house. A wall region 12 (shown in FIG. 4 and the like) is set as a region along the wall line 10 and having the height and where the wall is arranged. It is stored in the storage device 2 as a design data file 2a.
[0031]
The wall area 12 stored in the storage device 2 as data of the design data file 2a has a three-dimensional shape having a predetermined thickness of the wall, the above height, and the length between both end points of the wall line 10. It has a shape as follows.
The shape and arrangement of the opening area 11 indicating the opening provided in the wall area 12 such as the window, the entrance and the like allocated in the design function are also stored in the storage device 2 as the design data file 2a. .
Further, as described above, one design data file 2a in which the data of the wall area 12 and the opening area 11 is registered is created for one house.
[0032]
The arithmetic processing device 1 has a function as a well-known CAD system. In this embodiment, as shown in FIGS. 5 and 6, the wall region 12 and the opening region 11 stored in the storage device 2 are used. In the wall region 12, the opening adjustment regions 13 are set on the left and right of the opening region 11 based on the shape and the arrangement of the wall regions 12, and the small wall region 14 is placed on the region where these opening regions 11 and the opening adjustment regions 13 and 13 are combined. And a function of setting a waist wall region 15 below a region where the opening region 11 and the opening adjustment region 13 are combined.
[0033]
In addition, the arithmetic processing device 1 is configured such that the positions of the left and right side edges of the combined region of the opening region 11, the opening adjustment regions 13, 13, the small wall region 14, and the waist wall region 15 are orthogonal to the wall region 12. When the positions do not coincide with the positions of the lines g, the widths of the opening adjustment regions 13, 13, the small wall region 14, and the waist wall region 15 are extended right and left to make the opening regions 11 and the opening adjustment regions 13, 13 small. It has a function of matching the positions of the left and right side edges of the region where the wall region 14 and the waist wall region 15 are combined with the positions of the grid lines g orthogonal to the wall region 12.
The wall area 12 in FIG. 5 shows a general rectangular wall area 12, and the wall area 12 in FIG. 3 shows a wall region 12.
[0034]
Next, a method of generating the divided regions (small wall region 14, waist wall region 15, opening adjustment regions 13, 13) in the wall region 12 in the design support apparatus having the above configuration will be described. In the method of generating a divided region in the wall region 12 by the design support apparatus of this embodiment, the division is performed at the intersection of the wall lines 10 as described above, and the position of the end portion at the intersection is determined by winning or losing the competition. The wall area 12 having a determined height is set, the opening area 11 is set in the wall area 12, and the set data is stored in the design data file 2a. is there.
Then, various divided areas are further generated in the wall area 12 so that the wall panels can be allocated to the wall area 12 while improving the workability of the wall panel and securing the strength of the wall.
[0035]
The method of generating the divided area in the wall area 12 is performed as shown in the flowchart of FIG.
First, the data of the wall area 12 is sequentially read one by one from the design data file 2a (step S1).
Next, it is determined whether there is an opening area 11 in the read wall area 12 (step S2). If there is no opening area 11, the process proceeds to step S7 because processing around the opening area 11 is not required. If there is an opening area 11, it is next determined whether the wall area 12 is an outer wall or an inner wall (step S3).
[0036]
If the wall region 12 is not an outer wall but an inner wall, an inner wall opening adjustment region generation process described later is performed (step S4).
If the wall region 12 is an outer wall, an outer wall opening adjustment region generation process described later is performed (step S5).
Next, in the wall region 12 in which the opening adjustment region 13 has been generated, a small wall / lumbar wall region generation process described later is performed (step S6).
[0037]
Next, it is determined whether or not there is a remaining wall region 12 in which the above processing has not been performed in the design data file 2a.
Then, if there is a remaining wall region 12, the process returns to step S1, and if there is no remaining wall region 12, the divided region generation processing in the wall region 12 ends.
[0038]
Hereinafter, the inner wall opening adjustment area generation processing will be described in detail with reference to the flowchart of FIG.
First, the data of the opening area 11 in the wall area 12 of the inner wall read by the above processing is sequentially read from the left side of the wall area 12 (step A1).
[0039]
Next, the positions of the left and right side edges of the small wall region 14 set on the opening region 11 are temporarily set in accordance with the left and right side edges of the opening region 11 (step A2). Note that the design of the house itself is performed along the grid lines g as described above, but the size of the fittings is not necessarily based on the reference unit length. May deviate from the grid lines g.
[0040]
If the design process is performed while the opening area 11 is shifted from the grid lines g, a shift will occur when the wall panel is allocated to the wall area 11, and based on the reference unit length. It is necessary to use non-standard panels instead of manufactured panels, and it is necessary to arrange a correction member for correcting a deviation by on-site construction or the like.
[0041]
Thus, it is next determined whether or not the left side edge of the small wall region 14, that is, the left side, coincides with the position of the grid lines g orthogonal to the wall region 12 (step A3). If they match, the process proceeds to step A5 because the left side of the small wall region 14 does not require an adjustment process described later.
If they do not match, the left side of the small wall region 14 is shifted to the left, so that the left side of the small wall region 14 matches the grid line (step A4).
[0042]
Next, it is determined whether or not the right side edge of the small wall region 14, that is, the right side, coincides with the position of a grid line orthogonal to the wall region 12 (step A5).
If they match, the process proceeds to step A12 because no adjustment process is required for the right side of the small wall region. Here, basically, the right side of the small wall region 14 on the right side is moved to the right. However, when the right side is moved to the right, the right side of the small wall region 14 is located on the right side of the opening region 11. There is a possibility of overlapping with the small wall region 14 to be set above the region 11 or exceeding the right edge of the wall region 12.
[0043]
Therefore, when the right side does not coincide with the position of the grid line, there is an opening area 11 further to the right of the opening area 11, and if the right side of the small wall area 14 does not exceed the left side of the opening area 11, It is determined whether it is not possible to match the grid lines (step A6).
[0044]
If the right side of the small wall region 14 is made to coincide with the grid line and exceeds the left side of the right opening region 11, the right side is made to coincide with the left side of the right opening region 11 (step A7).
That is, the small wall region 14 and the small wall region 14 set on the opening region 11 on the further right side of the small wall region 14 are arranged adjacent to each other.
[0045]
In this case, since the wall panel is not allocated between the opening regions 11, even if the side edge of the small wall region 14 does not coincide with the grid line orthogonal to the wall region 12, it is determined based on the reference unit length. No extraordinary wall panels are used.
In addition, when the length of the small wall panel is determined by the length of the small wall region 14 and the right side of the small wall region 14 does not coincide with the grid line orthogonal to the wall region 12, the length of the small wall panel is also determined based on the reference unit length. Non-specified small wall panels are required, but the possibility of using non-specified small wall panels can be minimized, for example, by combining adjacent small wall regions 14, 14. .
[0046]
When the right side of the small wall region 14 is determined as described above, the position of the left side of the small wall region 14 set on the opening region 11 on the right side is also determined. Next, since the processing of the left side is not required when performing the above processing, the data of the next right opening area 11 is read (step A8), and the data of the left side is read. The process skips and proceeds to step A5.
[0047]
In step A6, if the right side of the small wall area 14 does not exceed the left side of the opening area 11 on the right side, then the right side of the small wall area 14 must not exceed the right side edge of the wall area 12. Then, it is determined whether or not the grid line perpendicular to the wall region 12 and the right side cannot be matched (step A9).
[0048]
When the right side of the small wall area 14 is moved rightward to match the grid line, and the right side exceeds the right edge of the wall area 12, the right side of the small wall area 14 is moved to the wall area. 12 (step A10).
In this case, since the wall region 12 ends on the right side of the small wall region 14, it is not necessary to use a wall panel outside the above-described range as the wall panel in the wall region 12 even if the right side does not match the grid line. .
When the opening regions 11 are sequentially read from the left side of the wall region 12, when the right side of the small wall region 14 reaches the right end of the wall region 12, there is no remaining opening region 11 in the wall region 12. Then, the processing is terminated.
[0049]
If the right side of the small wall region 14 does not exceed the right edge of the wall region 12 even if the right side of the small wall region 14 is moved until it coincides with the grid line, the right side is moved to the right to move the right side and the grid line. Make them coincide (step A11).
When the processing is performed as described above, basically, as shown in FIG. 9, the left side of the small wall area 14 is a grid line (a grid line position 16, a grid line g on a plane, which is raised and shown). G), and the right side of the small wall region 14 on the right side also coincides with the grid line (grid line position 16) g. The distance to the grid line g (an integer multiple of 1 / 4M) is empty, and the width of the small wall region 14 is also the distance from the grid line g to the grid line g (an integer multiple of 1 / 4M).
Therefore, the width of the wall panel, the small wall panel, and the below-described waist wall panel is basically an integral multiple of 1 / 4M.
[0050]
Then, as shown in FIG. 10, when the left and right side edges of the small wall region 14 are moved, the left and right side edges of the small wall region 14 are outside the left and right side edges of the opening region 11. When the left and right adjacent wall panels are arranged in accordance with the side edges, empty areas are created on the left and right of the opening area 11. Then, this empty area is set as the aperture adjustment area 13 (step A12).
[0051]
Therefore, the widths w1 and w2 of the opening adjustment regions 13 arranged on the left and right sides of the opening region 11 are from the left side of the small wall region 14 to the left side of the opening region 11 in the left opening adjustment region 13. In the right-side opening adjustment region 13, the area extends from the right side of the small wall region 14 to the left side of the opening region 11.
That is, the width W3 of the small wall region 14 minus the width 4 of the opening region 11 is the remaining width W1, W2 of the opening adjustment regions 13, 13.
In addition, the upper side and the lower side of the left and right opening adjustment regions 13 match the upper side and the lower side of the opening region 11.
[0052]
Then, when the above processing is completed, it is determined whether or not there is another opening area 11 on which the above processing has not been performed to the right of the opening area 11 (step A13). If there is a remaining opening area 11, the process proceeds to step A1. If there is no remaining opening area 11, the inner wall opening adjustment area generation processing ends.
[0053]
Hereinafter, the outer wall opening adjustment area generation processing will be described in detail with reference to the flowchart in FIG.
First, the data of the opening area 11 in the wall area 12 read by the above processing is sequentially read from the left side (step B1).
[0054]
Next, opening adjustment regions 13 having a predetermined width are set on the left and right of the opening region 11 (step B2). In addition, since a support member for supporting a small wall panel of a small wall region 14 described later is arranged in the opening adjustment regions 13, 13, the basic width of the support member is set to a predetermined width of the opening adjustment regions 13, 13. And Further, as described later, the width of the support member can be changed depending on the situation.
[0055]
The heights of the upper and lower sides of the opening adjustment regions 13 and 13 are adjusted to the heights of the upper and lower sides of the opening region 11.
Next, the positions of the outer side edges of the left and right opening adjustment areas 13 formed with the predetermined width as described above, that is, the positions of the opposite side edges of the opening area 11 are obtained (step B3).
When the side edges of the opening region 11 are displaced from the grid lines g as described above, when the opening adjustment region 13 is provided and the width thereof is simply set to a predetermined width, as described above. It is necessary to use non-standard panels.
[0056]
Then, in order to adjust the shift of the opening region 11 with respect to the grid lines g using the opening adjustment regions 13, the outer side edge of the opening adjustment region 13 on the left side of the opening region 11, that is, the left side is It is determined whether or not the position matches the position of the grid lines g orthogonal to the wall region 12 (step B4).
If they match, no adjustment processing is required in the left-side opening adjustment area 13, and the process proceeds to step B6.
If they do not match, the left side of the left-side opening adjustment area 13 is shifted to the left so that the left side of the opening adjustment area 13 matches the grid lines g (step B5).
[0057]
Next, it is determined whether or not the outer side edge of the opening adjustment area 13 on the right side of the opening area 11, that is, the right side coincides with the position of the grid lines g orthogonal to the wall area 12 (step B6).
If they match, the process proceeds to step B13 because the adjustment process for the right opening adjustment region 13 is not required. Here, basically, the right side of the opening adjustment area 13 on the right side is moved to the right. However, when the right side is moved to the right, the opening area 11 on the further right side of the opening area 11 is moved. There is a possibility of overlapping the opening adjustment area 13 or exceeding the right edge of the wall area 12.
[0058]
Therefore, when the right side does not coincide with the position of the grid line g, there is an opening area 11 on the right side of the opening adjustment area 13 on the right side, and a predetermined width to be set on the left side of the opening area 11 is set. If the right side does not exceed the left side of the opening adjustment area 13, it is determined whether or not the right side cannot be matched with the grid lines g (step B7).
[0059]
If the right side matches the grid lines g and exceeds the left side of the opening adjustment area 13 of the right opening area 11, the right side is matched with the left side of the right opening adjustment area 13 (step B8). ).
That is, the right-side opening adjustment region 13 and the left-side opening adjustment region 13 of the opening region 11 on the further right side of the opening adjustment region 13 are arranged adjacent to each other.
[0060]
In this case, since the wall panels are not allocated between the opening adjustment regions 13, even if the side edges of the opening adjustment regions 13 do not coincide with the grid lines orthogonal to the wall region 12, the lengths of the reference unit length are not exceeded. No non-standard wall panels are used.
In addition, when the length of the small wall panel is determined by the length of the opening adjustment region 13 and the side edge of the opening adjustment region 13 does not coincide with the grid line g orthogonal to the wall region 12, the reference unit length is also determined. Non-defined small wall panels are required, but the possibility of using non-defined small wall panels is minimized, for example, by combining adjacent small wall regions 14, 14. be able to.
[0061]
When the right side of the opening adjustment area 13 on the right side is determined as described above, the position of the left side of the opening adjustment area 13 on the left side of the opening area 11 on the right side is also determined. Since the processing of the left side is not required when sequentially reading the data of the opening adjustment area 13 from the left opening area 11 and performing the above processing, the data of the next right opening area 11 is read (step B9). The opening adjustment areas 13 and 13 having a predetermined width are generated on the left and right of the read opening area 11, the opening adjustment area 13 on the left side is determined, the process on the left side is skipped, and the process proceeds to step B6.
[0062]
In step B7, if the right side of the right side opening adjustment area 13 does not exceed the left side of the opening adjustment area 13 to be set to the right side opening area 11 with a predetermined width, then the right side opening adjustment area 13 If the right side of the adjustment area 13 does not exceed the right edge of the wall area 12, it is determined whether or not the grid lines g orthogonal to the wall area 12 and the right side cannot be matched (step B10).
[0063]
When the right side of the right-side opening adjustment area 13 is moved rightward to coincide with the grid line g, if the right side exceeds the right-side edge of the wall area, the right-side opening adjustment area 13 is moved. Is matched with the right edge of the wall area 11 (step B11).
In this case, since the wall region 12 ends at the right side of the opening adjustment region 13, even if the right side does not coincide with the grid lines g. There is no.
When the opening area 11 is sequentially read from the left side of the wall area 12 and the right side of the opening adjustment area 13 reaches the right end of the wall area 12, the remaining opening area 11 is left in the wall area 12. Since there is no such information, the process ends.
[0064]
Also, if the right side of the opening adjustment area 13 on the right does not exceed the right edge of the wall area 12 even if the right side of the wall area 12 is moved until the right side of the opening adjustment area 13 matches the grid line, the right side is moved rightward to g (step B12).
When the processing is performed as described above, basically, as shown in FIG. 12, the left side of the opening adjustment area 13 on the left side of the opening area 11 coincides with the grid line (grid line position 16) g, and the opening on the right side The right side of the adjustment region 13 also coincides with the grid line (grid line position 16) g, and the distance (1 / 4M) from the grid line g to the grid line g is provided in the left and right wall regions 12 of the opening region 11. And the width of the opening area 11 and the left and right opening adjustment areas 13 and 13 is also the distance from the grid line to the grid line (an integer multiple of 1 / 4M).
Therefore, the width of the wall panel, the small wall panel, and the waist wall panel is basically an integral multiple of 1 / 4M.
[0065]
Then, when the processing is completed in the left and right opening adjustment areas 13 corresponding to the opening area 11, whether or not there is another opening area 11 on which the above processing has not been further performed is on the right side of the opening area 11. Is determined (step B13). If there is a remaining opening area 11, the process proceeds to step B3. If there is no remaining opening area 11, the outer wall opening adjustment area generation processing ends.
[0066]
Next, the small wall and waist wall region generation processing will be described with reference to the flowchart in FIG.
First, data of the opening area 11 in the wall area 12 and the data of the opening adjustment areas 13 and 13 corresponding to the opening area 11 (contacting right and left) obtained by the above processing are read (step C1).
[0067]
Next, it is determined whether the wall area 12 is an outer wall or an inner wall (step C2).
When the wall region 12 is an inner wall, since the left and right side edges of the small wall region 14, that is, the positions of the left side and the right side are determined as described above, the positions of the right side and the left side of the waist wall region 15 are determined. To the positions of the left side and right side of the small wall region 14 (step C3).
When the wall area is an outer wall, the width of the small wall and the waist wall areas 14 and 15 is a length obtained by adding the width of the opening area 11 and the width of the opening adjustment areas 13 and 13 on the left and right sides thereof. The right side and the left side of the small wall and the waist wall regions 14 and 15 are made to coincide with the right side of the right opening adjustment region 13 and the left side of the left opening adjustment region 13 (step C4).
[0068]
Next, it is determined whether the wall area 12 is a rectangular area as shown in FIG. 14 or a house-cut area having an oblique side on the upper side as shown in FIG. 15 (step C5).
When the wall region 12 is rectangular, the height h1 of the upper side of the small wall region 14 is set as the height of the wall region 12 (step C6). If the wall area 12 is a house-cut, the height of the first wall panel from the lower side of the preset wall area is set to the height h'1 of the upper side of the small wall area 14 (step C7).
[0069]
Also, the height h2 of the lower side of the small wall region 14 is set to be equal to the height of the upper side of the opening region 11 (step C8). Further, the height h3 of the upper side of the waist wall region 15 is set to be equal to the height of the lower side of the opening region 11 (step C9). Further, the height h4 of the lower side of the waist wall region 15 is set to match the height of the lower side of the wall region 12 (step C10).
[0070]
Next, it is determined whether or not there is a remaining opening area 11 in which the above processing has not been performed in the wall area 12 (step C11). Then, when there is the remaining opening area 11, the process returns to step C1. If there is no remaining opening area 11, the small wall / lumbar wall area generation processing ends.
[0071]
As described above, the design support apparatus according to the present embodiment is designed to secure the strength of the wall and improve the productivity when allocating the wall panel in the wall area 12 to which the wall panel is to be allocated. The wall region 12 can be divided into a plurality of divided regions.
[0072]
In particular, by providing the opening adjustment regions 13 and 13 on the left and right of the opening region 11 of the wall region 12 and providing the small wall region 14 over the opening region 11 and the opening adjustment regions 13 and 13, The end of the region 14 is over the opening adjustment regions 13, 13.
Therefore, when the small wall panel is allocated to the small wall area 14 and the support members are allocated to the opening adjustment areas 13 and 13, both side edges of the small wall panel are simply joined to the left and right side wall panels of the opening area 11. A stronger structure can be obtained than in the case where the above-described case is adopted.
[0073]
That is, by providing the opening adjustment regions 13 and 13 and the small wall region 14 around the opening region 11 as described above, when the wall panel is automatically allocated to the wall region 12, around the opening of the wall, The strength of the wall can be secured.
[0074]
In the opening where the fitting is allocated, the shape of the fitting is not necessarily based on the reference unit length. However, the width of the opening adjustment areas 13 and 13 is adjusted to adjust the opening area 11 and the opening adjustment. By making the area including the areas 13 and 13 just fit between the grid lines g, g, a wall panel based on the reference unit length can be used on both left and right sides of the opening area 11, Basically, a small wall panel and a waist wall panel whose width is based on the reference unit length can be used.
[0075]
Therefore, when manufacturing a wall panel, a small wall panel, or a lumbar wall panel, the possibility of producing a panel that does not satisfy a predetermined standard is low, and the productivity of the panel can be improved.
In addition, in a construction site of a house, it is unlikely that a portion that is not based on the grid lines has to be covered by the on-site construction, so that productivity can be improved even in the construction of a house.
[0076]
Further, in this embodiment, when the opening adjustment region 13 is generated, the processing is changed depending on whether the opening region 11 is provided in the wall region 12 of the outer wall or the wall region 12 of the inner wall. I have.
That is, since the inner wall has a smaller load than the outer wall, it is sufficient to join both side edges of the small wall panel to both side edges of the adjacent wall panel even if there is no support member for supporting the small wall panel. High strength can be obtained.
[0077]
Therefore, on the inner wall, the members arranged in the opening adjustment region 13 are handled as adjustment members instead of support members.
That is, in the opening region 11 of the inner wall, a small wall region 14 having both side edges is temporarily set at the same position as the both side edges of the opening region 11, and then, the both side edges of the small wall region 14 are moved to the left and right sides, respectively. The gap between the left and right edges of the moved small wall region 14 and the left and right edges of the opening region 11 is defined as the opening adjustment region 13 in accordance with the grid lines g.
[0078]
When the grid lines g coincide with the left and right side edges of the temporarily set small wall region 14 as described above, the opening adjustment region 13 may not be provided.
That is, if there is no need for adjustment, the workability can be improved by deleting the opening adjustment region 13.
In addition, if the distance between the left and right edges of the temporarily set small wall region 14 and the grid line is short, the opening adjustment region 13 having a small width is provided. Are regarded as members for adjusting the width of the opening region 11, not members for supporting the small wall panel, so that the opening adjustment region 13 having an unnecessarily long width is not generated.
[0079]
In the outer wall, since the members arranged in the opening adjustment area 13 are regarded as members supporting the small wall panel, the minimum width of the opening adjustment area 13 required to support the small wall panel is set. Is to be kept.
That is, after the opening adjustment region 13 having a predetermined width is provided in the opening region 11, the width of the opening adjustment region 13 is increased so that the side edge of the opening adjustment region 13 opposite to the opening region 11 is aligned with the grid line. It has become.
[0080]
Therefore, in the opening adjustment region 13, a minimum required width can be secured, and the width of the opening region 11 can correspond to the grid lines g.
As described above, in this embodiment, the extra large opening adjustment region 13 is arranged on the inner wall having a smaller load than the outer wall, and it is possible to prevent an increase in the labor of constructing the members allocated to the opening adjustment region 13 and On the outer wall having a larger load than the inner wall, the width of the opening adjustment region 13 that can reliably support the small wall panel can be ensured, and the width of the opening region 11 can correspond to the grid lines g.
[0081]
In the above embodiment, the steps shown in the flowchart are an example of the present invention, and if the opening adjustment area and the small wall area can be generated on the wall area as described above, the order of the steps and the contents of the steps will be described. May be changed.
[0082]
【The invention's effect】
As described in detail above, according to the design support apparatus of the first aspect, a small wall region is generated on the opening region, and the width of the small wall region is extended to form both side edges of the small wall region. By providing an opening adjustment region corresponding to the width of the small wall region on the left and right of the opening region below the small wall region having the width extended in accordance with the grid line, the opening adjustment region provides a grid. The deviation from the line is absorbed, and the layout of the wall panel on both sides of the opening area can be facilitated.
[0083]
In addition, by aligning the positions of both side edges of the small wall area with the grid lines as described above, the small wall area also has a size based on the reference unit length. Standardized small wall panels based on length can be allocated.
In addition, in the adjustment area, for example, a plate-shaped member that can easily adjust the width by cutting or the like will be disposed, and the plate-shaped member is disposed below the left and right ends of the small wall panel, It becomes a support member for supporting the small wall panel from the lower side of the small wall panel, and the strength of the wall on the opening area can be increased.
[0084]
That is, the small wall panel is fixed by joining its left and right ends to the side edges of the wall panels arranged on the left and right of the small wall panel. By arranging the support member under the end of the small wall panel, the support member reinforces the joint between the left and right ends of the small wall panel and the side edges of the wall panel.
[0085]
According to the design support apparatus of the second aspect, on the outer wall that requires relatively high strength, the support member having a predetermined width or more is always arranged below the left and right ends of the small wall panel, and the opening area and The width of the area including the opening adjustment area, that is, the width of the small wall panel corresponds to the grid line, and the inner wall is not necessarily provided with a support member capable of supporting the small wall panel, but the necessary minimum adjustment is required. The width of the small wall panel can be made to correspond to the grid line by the width, so that an unnecessarily large opening adjustment area can be prevented from being arranged.
[Brief description of the drawings]
FIG. 1 is a block diagram for explaining a design support apparatus of the present invention.
FIG. 2 is a block diagram illustrating a design support apparatus according to an embodiment of the present invention.
FIG. 3 is a diagram for explaining an arrangement of wall lines stored in the design support apparatus of the embodiment.
FIG. 4 is a plan view of a wall for describing an arrangement of walls in the design support apparatus of the embodiment.
FIG. 5 is a drawing for explaining a divided area in a wall area by the design support device.
FIG. 6 is a diagram for explaining a divided region in a wall region by the design support device.
FIG. 7 is a flowchart illustrating an outline of a method of dividing a wall region by the design support device.
FIG. 8 is a flowchart illustrating an inner wall opening adjustment area generation process performed by the design support device.
FIG. 9 is a diagram for explaining an inner wall opening adjustment region generation process by the design support device.
FIG. 10 is a diagram for explaining an inner wall opening adjustment region generation process by the design support device.
FIG. 11 is a flowchart illustrating an outer wall opening adjustment area generation process performed by the design support device.
FIG. 12 is a diagram for explaining an outer wall opening adjustment area generation process by the design support device.
FIG. 13 is a flowchart illustrating a small wall / lumbar wall region generation process performed by the design support device.
FIG. 14 is a diagram for explaining a small wall / lumbar wall region generation process by the design support device.
FIG. 15 is a diagram for explaining a small wall / lumbar wall region generation process by the design support device.
[Explanation of symbols]
1. Arithmetic processing unit (small wall area generation means b, area adjustment means c, adjustment area generation means d, inside / outside determination means e)
2 Storage device (design data storage means a)
2a Design data file
11 Open area
12 wall area
14 Small wall area
15 waist wall area

Claims (2)

Walls designed for a building whose walls are mainly composed of wall panels, and are arranged along grid lines drawn vertically and horizontally for each reference unit length based on the input data. A design support device for allocating wall panels to an area,
Design data storage means for storing the shape and arrangement of the wall area, and the shape and arrangement of an opening area in which an opening such as a window or an entrance is arranged in the wall area;
A small wall region generating unit configured to set a small wall region in the wall region so as to cover the opening region over the opening region stored in the design data storage unit;
When the left and right side edges of the small wall region set in the small wall region generation means are not arranged on the grid line orthogonal to the wall region, extend the width of the small wall region along the horizontal direction. A region adjusting means for arranging the side edge of the small wall region on the grid line orthogonal to the wall region;
Corresponding to the width of the small wall area extended by the area adjusting means, an adjustment area generating means for setting an opening adjustment area to the left and right of the opening area and below the small wall area,
Design support, wherein an integrated small wall member having a predetermined strength is arranged in the small wall region on the opening region, and a support member for supporting an end of the small wall member is arranged in the opening adjustment region. apparatus. A wall area to which a wall panel is to be allocated based on the data of the arrangement of the wall area stored in the design data storage means has an inside / outside determination means for determining whether an inner wall or an outer wall is provided,
If the inside / outside determination means determines that the wall area is an inner wall, the small wall area generation means places the inside of the wall area over the opening area stored in the design data storage means so as to cover the opening area. In the case where the left and right side edges of the small wall area set in the small wall area generating means are not arranged on the grid line orthogonal to the wall area, The width along the horizontal direction of the small wall area is extended, and the side edges of the opening area are arranged on the grid lines orthogonal to the wall area, and the adjustment area generating means is extended by the area adjusting means. In accordance with the width of the small wall region, an opening adjustment region is set to the left and right of the opening region and below the small wall region,
When the wall area is determined to be the outer wall by the inside / outside determination means, the adjustment area generating means sets an opening adjustment area having a predetermined width in the left and right wall areas of the opening area stored in the design data storage means. Setting, when the area adjusting means is not arranged on the grid line orthogonal to the wall area, the side edge of the opening adjusting area set in the adjusting area generating means opposite to the opening area. Extending the width of the opening adjustment region along the horizontal direction, arranging the side edges of the opening adjustment region on the grid line orthogonal to the wall region, 2. The design support apparatus according to claim 1, wherein a small wall region is set in the wall region on the adjustment region so as to integrally cover the opening region and the opening adjustment region.

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