JP3140277B2 - Floor area dividing device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for dividing a floor-forming surface into a rectangular region in a plan view when allocating a floor panel having a rectangular shape in a plan view to a floor-forming surface having a complicated shape having a corner. The present invention relates to a floor area dividing device used.

[0002]

2. Description of the Related Art As one of the methods for constructing a prefabricated house, there is known a method of constructing a floor, a wall, a roof and the like of a house by using panels. In this construction method, a floor is formed by forming a frame by previously framing a core material in a factory or the like, and attaching a face material to at least one surface of the frame,
Manufacture wall panels, roof panels, etc.
This is a method of building a building by assembling these panels.

[0003] In recent years, in various designs,
CAD (compute) consisting of a computer system
An r-aid-design system is used, and a design using the CAD system is also being made in the house. In a general CAD system, shape data, graphic data, and other data of a member serving as a design element are stored as a database in advance, and these data are called at the time of design, and each member is arranged on a display. By doing so, a draft is created, and design work is omitted.

Therefore, in a conventional CAD system for a house, data on a wall or a floor is read out by deciding a layout on a display, and these are arranged at an appropriate position. By determining the position, these data are read out and arranged at appropriate positions, whereby the shape of the house is shown on the display as a graphic (three-sided view or perspective view) and output as a design drawing. .

[0005]

In the design of a prefabricated house using the panels, it is necessary to assign panels of predetermined size and shape to floors, walls, and roofs. However, the shape of the floor, for example, is naturally influenced by the shape of the site and the floor plan, and is not necessarily designed to the standard panel size and shape, but in accordance with the design requirements of the supplier. Because it is decided, if you simply and mechanically assign panels from the end on the CAD system design drawing,
A gap is formed, or a plurality of small panels are arranged where a large panel is arranged. As a result, there is a high possibility that an inefficient panel is allocated.

Although it is rational if floor panels are laid out on the entire floor surface, in such a case, there is an inconvenience that the partition wall is not located at the connecting portion of the floor panels. That is, when constructing a house by the panel construction method, the rear wall panels on which the floor panels are laid are fixed and arranged. At this time, the wall panels (partition walls) are arranged on the connecting points between the floor panels. Is becoming more common.
This is because the wall panel is located immediately above the foundation because the positioning of the wall panel is easy on site construction and the foundation is often arranged corresponding to the connection point between the floor panels in general. This is because the structure is more advantageous in terms of structure.

The present invention has been made in view of the above circumstances, and an object of the present invention is to enable floor panels to be efficiently arranged on a floor-forming surface of a building constructed from panels, and to provide a partition wall with a floor. In order to provide a floor area dividing device that divides a particularly complex floor-forming surface into a plurality of simple rectangular shapes so that the floor panels can be allocated so as to be located at connection points between the panels. is there.

[0008]

Means for Solving the Problems Claim 1 of the present invention
In the floor area dividing apparatus described in the above, the shape storage means a which is partitioned by vertical and horizontal partition lines and stores the shape of the floor forming surface having a complicated shape having an inward corner, and the laying direction of the floor panel on the floor forming surface. A laying direction determining means b for determining whether to be vertical or horizontal; a first inset corner recognizing means c for recognizing a point of an inset corner on the floor forming surface stored in the shape storage means; A first temporary dividing line for dividing a floor forming surface along the floor direction of the floor panel determined by the floor direction determining means from the point of the inset corner recognized by the corner recognition means. Dividing line creating means d, determining whether or not the length of the first temporary dividing line obtained by the first temporary dividing line creating means is equal to or less than a predetermined basic length; First parting line recognition that recognizes this as the first parting line if The means e and the first division line recognized by the first division line recognition means determine whether or not each of the first divided areas formed by dividing the floor forming surface is rectangular. One divided area determining means f;
A second corner recognizing unit g for recognizing a corner point in the first divided region determined to be non-rectangular by the first divided region determining unit; and a second corner recognizing unit. A second temporary dividing line for further dividing the first divided region along a direction orthogonal to the floor direction of the floor panel determined by the floor direction determining means from the recognized corner point is obtained. Temporary dividing line creating means h and two divided areas divided by the second temporary dividing line obtained by the second temporary dividing line creating means, Determining whether the sum is equal to or less than the basic length, and if the sum is not equal to or less than the basic length, a second dividing line recognizing means i for recognizing this as a second dividing line. This is means for solving the above problems. In the floor area dividing apparatus according to claim 2, the floor area dividing apparatus according to claim 1 further includes the first division area divided by the second division line recognized by the second division line recognition unit. A second divided region determining unit j that determines whether each of the second divided regions formed is rectangular, and determining that the second divided region is not rectangular by the second divided region determining unit. In this case, a re-recognition unit k for recognizing the second divided area as a floor-forming surface in the case where the second divisional area is provided is provided as a means for solving the above problem.

[0009]

According to the floor area dividing device of the first aspect, the corner at the corner on the floor forming surface stored in the shape storage means a is obtained by the first corner recognition means c. The first temporary dividing line creating means d draws a line from the point of the entered corner along the floor panel laying direction determined by the laying direction determining means b into the floor forming surface, thereby obtaining a first temporary dividing line. A dividing line is required. Then, from the first temporary dividing lines, those having a basic length equal to or less than a preset basic length are selected by the first dividing line recognizing means e to obtain a first dividing line. The first divided region formed by dividing the floor forming surface is rectangular by the first divided region determining means f, and the first divided region determined to be non-rectangular. Then, the point at the corner is obtained again by the second corner recognition unit g. If it is determined that the area is a rectangle, the first divided area becomes one of the final divided areas.

In addition, from the point of the corner which is obtained by the second corner recognizing means g, the second temporary dividing line forming means h moves the first divided area along the direction orthogonal to the laying direction. , A second temporary dividing line is obtained. Then, from among the second temporary dividing lines, the second dividing line recognizing means i
In the two divided areas divided by the second temporary dividing line, the sum of the respective lengths in the laying direction of the floor panel that is not less than the basic length is selected, and the second dividing line is obtained. Then, the first divided region is further divided by the second divided line thus obtained to form a second divided region. Therefore, the floor-forming surface can be divided into a rectangle or a shape close to the rectangle by dividing the first divided region obtained previously into a rectangular one and the second divided region, Moreover, these divided areas are
It can be made relatively small within a preset unit length.

According to the floor area dividing device of the second aspect,
The second divided area formed by dividing the first divided area by the second divided line recognized by the second divided line recognizing means i is rectangular by the second divided area determining means j. Is determined, and the second divided area that is determined to be not rectangular is recognized by the re-recognition unit k as a floor formation surface. Therefore, a non-rectangular portion of the second divided region is again divided by each of the above-described units, whereby all the divided regions become rectangular. In the sections of the means for solving the above problems and the operation, the description has been made with reference to FIG. 1. However, the present invention is not limited to the configuration of FIG.

[0012]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the floor area dividing apparatus according to the present invention will be described below with reference to the drawings. The floor area dividing device of this embodiment is obtained by applying the floor area dividing device of the present invention to a CAD system constituted by a computer system.
It functions as part of the system. The floor area dividing apparatus according to the present embodiment, which is a part of the CAD system, particularly allocates a rectangular floor panel in a plan view to a complex floor forming surface having a corner formed by the CAD system. At this time, the floor forming surface is to be divided into rectangular regions in plan view.

FIG. 2 is a diagram showing a basic configuration of a CAD system provided with the floor area dividing device of the present embodiment. This CAD
The system includes an arithmetic processing unit (computer) 11 including a memory such as a RAM and a ROM serving as a central processing unit and an internal storage device as well known, an auxiliary storage device 12 including a hard disk, a magneto-optical disk, and the like.
A display device 13 such as a color display, an input device 14 such as a keyboard, a mouse, a tablet,
The basic configuration includes a pointing device (coordinate position input device) 15 such as a digitizer and an output device 16 such as a printer and a plotter.

The auxiliary storage device 12 has internal codes No. of various members for constructing a house. , Graphic data, shape data, ordering product code No. And unit prices of various members are stored as a database, and C
Data designed on the AD system is stored.
The auxiliary storage device 12 has a function (shape storage means a) of storing the shape of the floor forming surface of each floor in the house as data designed by the CAD system.

Here, among the shapes of the floor-forming surfaces stored in the auxiliary storage device 12, the shape of the floor-forming surface used in the floor area dividing device is, for example, a vertical and horizontal partition in a floor plan as shown in FIG. It is a floor forming surface of a room A having a complicated shape partitioned by lines. This room A has outer walls 20a, 20b, 20c, 20 arranged vertically or horizontally.
d, 20e, and inner walls (partition walls) 21a, 21
It is a space surrounded by b, 21c, 21d, 21e, 21f, 21g and the door part 22 and has a plurality of corners. The auxiliary storage device 12 stores, as the floor forming surface, specifically, a shape surrounded by the center line of the outer wall 20 and the inner wall 21 in the thickness direction, that is, the shape shown in FIG.

The arithmetic processing unit 11 has a function as a well-known CAD system and has a function of dividing a floor forming surface designed using the arithmetic processing unit 11 into a simple shape, that is, a rectangular shape. It is. Also,
The arithmetic processing device 11 has the following functions. The floor forming surface B shown in FIG. 4 is called from the auxiliary storage device 12, and from this shape, the positions of the corners in the room A, that is, the points 30 corresponding to the positions of the corners on the floor forming surface B are recognized. function. (First Corner Recognition Means c) The corner here refers to the corner that has entered the inside of the room A.

Along the floor panel laying direction (the direction in which the long side of the rectangular floor panel extends) input by the input device (laying direction determining means b) 14, the floor forming surface B is formed from each of the points 30. Function to create first temporary dividing lines 31. (First Temporary Dividing Line Creation Means d) It is determined whether or not the length of the first temporary dividing lines 31 is less than or equal to the basic length input by the input device 14, and as shown in FIG. If the length is less than the basic length, it is recognized as a first dividing line 32 and displayed on the display device 13.
Function to delete without recognizing as 2. (First dividing line recognition means e)

A function of determining whether or not each of the first divided areas 33 formed by dividing the floor forming surface B by the first dividing line 32 is rectangular. (First divided region determining means f) A function of recognizing points 34 corresponding to the positions of the corners in the first divided region 33 determined to be not rectangular by this function. (Second corner recognition means g) A second section for further dividing the first divided region 33 from each of the points 34 along the direction orthogonal to the floor panel laying direction input by the input device 14. Temporary dividing line 35 ...
Ability to create. (Second temporary dividing line creating means h)

The two divided areas 36, 36 divided by the second temporary dividing lines 35, that is, the two divided areas 36, 36 sandwiching the second temporary dividing line 35, the laying direction of the floor panel. It is determined whether or not the sum of the respective lengths is equal to or less than the basic length. If the sum is not equal to or less than the basic length as shown in FIG.
A function of displaying on the display device 13 and, when the length is shorter than the basic length, not recognizing it as the second dividing line 37 and deleting it. (Second parting line recognition means i)

A function of determining whether or not each of the second divided areas 39 # formed by dividing the first divided area by the second dividing line 37 is rectangular. (Second divided area determining means j) When it is determined that the second divided area 39 is not rectangular,
Said second divided region 39 floor forming surface B ₁ and recognizing function.
(Re-recognition means k) It should be noted that the second divided region 39 is recognized as the floor forming surface B ₁ This feature is adapted to process is made based on the above-described functional again.

Next, referring to the flowchart of FIG.
A method of dividing a floor forming surface by the floor area dividing and attaching device will be described. First, the auxiliary storage device 12 stores a floor forming surface B partitioned by vertical and horizontal partition lines as shown in FIG. Then, when the floor forming surface B is displayed on the display device 13, the laying direction of the floor panel is input from the input device 14 according to the shape. Then, the floor area dividing apparatus recognizes the floor panel laying direction based on the input data (step A1). The floor panel is laid in the same direction as the vertical or horizontal line of the vertical and horizontal partition lines forming the floor forming surface B, as a matter of course. In addition, regarding the determination of the floor direction and the input thereof, the operator of the CAD system performs the floor formation surface B displayed on the display device 13.
Do it directly.

Further, by storing the floor forming surface B, the points 30 corresponding to the corners on the floor forming surface B are formed.
Is recognized (step A2). Then, since the points 30 are recognized, the first provisional dividing line that divides the floor-forming surface B along the floor direction X of the floor panel previously recognized starting from each of the points 30. 31 are created (step A3).

Next, a basic length for making the dividing line along the laying direction X an appropriate length is input by the input device 14. Here, the basic length is not particularly limited, but based on the length in the longitudinal direction of the rectangular floor panel, a length twice as long as this, in this example, 3640 mm is adopted and input. . The basic length may be stored in advance in the arithmetic processing unit 11 without being input via the input device 14 if the basic length is always set to the same value.

When the basic length is inputted and recognized, it is determined whether or not the length of the first temporary dividing lines 31 created before is equal to or less than the basic length (step A4). When the first temporary dividing lines 31 are smaller than the basic length,
This is recognized as a first division line 32 as shown in FIG. On the other hand, if it is not shorter than the basic length, it is not recognized as the first dividing line 32, and its storage is deleted (step A5). In step A4, the determination is individually made for all of the first provisional dividing lines 31... In step A5, the erasing operation is performed for all of the elements determined to be not less than the basic length.

When the first division line 32 is recognized, it is determined whether or not each of the first division regions 33, 33 formed by dividing the floor forming surface B is rectangular (see FIG. 3). Step A6). Then, the first divided area 33 determined to be rectangular is recognized as a finally divided area (step A7), and the processing in this area ends.

On the other hand, for the first divided area 33 determined to be not rectangular, points 34... Corresponding to the positions of the corners in this area 33 are further recognized (step A8). Then, since the points 34... Are recognized, the first divided area 33 is formed starting from each of the points 34... Along a direction Y orthogonal to the floor direction X of the floor panel previously recognized. Second temporary dividing lines 35 to be divided are created (step A9). In the examples shown in FIGS. 4 to 6, the number of the first divided regions 33 determined to be non-rectangular is one.
The points 34 corresponding to the positions of the corners individually for 3 ...
Is recognized, and a second temporary dividing line 35 is created based on the point 34.

When the second temporary dividing lines 35 are created, the two divided areas 36, 36 divided by the temporary dividing lines 35
It is determined whether the sum of the lengths of the floor panels in the laying direction X is equal to or less than the basic length (step A).
10). Also in this case, it is needless to say that the determination in step A10 is made for all the second temporary dividing lines 36. Then, for those determined to be not less than the basic length, as shown in FIG.
On the other hand, if it is shorter than the basic length, it is not recognized as the second dividing line 37 and is deleted (step A11).

Further, it is determined whether or not each of the second divided areas 38 # formed by dividing the first divided area is rectangular based on the recognized second dividing line 37 (step S1). A12). Again, the second divided area 38
Are determined for all of. Then, the second divided region 38a determined to be a rectangle is finally recognized as a divided region, and the processing in this region ends (step A13). On the other hand, the second divided region 38b which is determined not to be rectangular, said second divided area 38b is recognized as the floor forming surface B ₁ (step A14).

[0029] Then, for 38b to the recognized divided regions and the floor forming surface B _1, by repeating the process described above, it is further divided, are finally rectangular area. That is, the point 39 corresponding to the position of the corner is recognized as the segment 38b in FIG. 6 (step A).
2) Further, a first temporary dividing line 40 is created along the laying direction X with the point 39 as a starting point (step A3). Then, it is determined whether or not the first temporary dividing line 40 is shorter than the basic length previously input (step A4). Figure 8
This is recognized as the first division line 41 as shown in (1) (step A5).

When the first division line 41 is recognized, the first division areas 42, 42 formed by dividing the floor forming surface B ₁ (the division area 38b) are each rectangular. It is determined whether there is (Step A6). Then, the first divided areas 42, 4 determined to be rectangular
2 is finally recognized as a divided area, and the processing in this area ends (step A).
7). Then, after dividing the floor forming surface B into a rectangle having a simple shape, a floor panel allocating device separately provided in the arithmetic processing device 11 determines the size of the floor forming surface B based on the dimensions of the floor panel stored in the auxiliary storage device 12 in advance. To efficiently allocate floor panels for each divided area.

In such a floor area dividing apparatus, a complicated floor forming surface B can be divided into rectangular areas having a simple shape, whereby a rectangular floor panel can be efficiently formed in each divided area. Can be assigned.

[0032]

As described above, the floor area dividing device according to the first aspect of the present invention divides a floor forming surface into a rectangular one and a second divided area among the first divided areas. These areas are formed into rectangles or similar shapes, and these divided areas are made relatively small within a preset unit length, so that floor panels can be easily allocated to these areas. can do. Further, as a floor forming surface, a surface surrounded by a center line in the thickness direction of a wall or a door, that is, a surface along a floor shape of a room is divided, and a floor panel allocated to another room is provided. The partition wall can be arranged on the connection point between the floor panel and the floor panel that is allocated to the area divided by the floor area dividing device, and thus such allocation can be performed. It can be advantageous in construction and structure. According to the floor area dividing device of the second aspect, the non-rectangular second divided area is divided again by the above-described means, and thereby all the divided areas are made rectangular. Floor panels can be more easily allocated.

[Brief description of the drawings]

FIG. 1 is a block diagram for explaining a basic configuration of a floor area dividing device according to the present invention.

FIG. 2 is a block diagram showing a basic configuration of the floor area dividing device.

FIG. 3 is a plan view showing a floor plan of a house where a floor forming surface is divided by the floor area dividing device.

FIG. 4 is a plan view of a floor forming surface for explaining the operation of the floor area dividing device.

FIG. 5 is a plan view of a floor forming surface for explaining the operation of the floor area dividing device.

FIG. 6 is a plan view of a floor forming surface for explaining the operation of the floor area dividing device.

FIG. 7 is a flowchart for explaining the floor area dividing device.

FIG. 8 is a plan view of a floor forming surface for explaining the operation of the floor area dividing device.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 11 Arithmetic processing unit 12 Auxiliary storage device 30, 34, 39 Point corresponding to the position of a corner 31, 40 First temporary division line 32, 41 First division line 33, 42 First division area 35 Second Temporary dividing line 36 divided region 37 second dividing line 38a, 38b second divided region

Claims (2)

(57) [Claims] When allocating a floor panel having a rectangular shape in a plan view to a floor forming surface having a complicated shape which is partitioned by vertical and horizontal partition lines and having corners, the floor forming surface is formed into a rectangular area in a plan view. A floor area dividing device that divides a shape, wherein a shape storage unit that stores a shape of the floor forming surface; First in-corner recognizing means for recognizing an in-corner point on the floor-forming surface stored in the storage means, and, from the in-corner point recognized by the first in-corner recognizing means, First temporary dividing line creating means for finding a first temporary dividing line that divides the floor forming surface along the floor panel laying direction determined by the direction determining means; The length of the first provisional dividing line Determine whether the length is equal to or less than the basic length, and if the length is equal to or less than the basic length, a first dividing line recognizing unit that recognizes this as a first dividing line. First divided area determining means for determining whether or not each of the first divided areas formed by dividing the floor forming surface by the first divided line is rectangular; and the first divided area A second corner recognition unit that recognizes a point of the corner in the first divided area that is determined to be non-rectangular by the determination unit, and a corner of the corner recognized by the second corner recognition unit. From a point, a second temporary dividing line creating means for obtaining a second temporary dividing line for further dividing the first divided area along a direction orthogonal to the floor direction of the floor panel determined by the spreading direction determining means; The second temporary dividing line creation means It is determined whether the sum of the lengths of the two divided areas divided by the temporary dividing line in the floor panel laying direction is equal to or less than the basic length. And a second dividing line recognizing means for recognizing as a second dividing line. 2. The floor area dividing device according to claim 1, wherein the first divided area is formed by dividing the first divided area by the second dividing line recognized by the second dividing line recognizing means. A second divided region determining unit that determines whether each of the divided regions is rectangular; and if the second divided region is determined to be not rectangular by the second divided region determining unit, the second divided region And a re-recognizing means for recognizing the divided area as a floor forming surface.