JP2008023827A - Manufacturing equipment and manufacturing method of framework material in framework wall construction method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method and materials wherein framework materials are carried into a site in the state that they are not assembled at all and are assembled easily at the site. <P>SOLUTION: The processing data are generated from the design values data and the printing is performed. The processing data include the data for printing, on the face 31 of the shorter direction of the nominal cross-section of the upper frame material 30, the mark-off line 32 showing the position in which a stud material is arranged and the mark 33 showing the stud material arranged to fit the position of each mark-off line 32; the data for printing, on the face 41 of the shorter direction of the nominal cross-section of the lower frame material 40, the mark-off line 42 showing the position in which the stud material and the lintel receiving material 70 are each arranged and the marks 43a, 43b showing either of the stud material or the lintel receiving material 70 arranged to fit the position of each mark-off line 42; and the data for printing, on the faces 31, 40 of the shorter direction of the nominal cross-sections of each framework material including the upper frame material 30, the lower frame material 40, the lintel material 50 and the lintel receiving material 70, the marks 37, 46, 52, 72 showing the kinds of each framework material. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a frame material manufacturing apparatus and method in a frame wall method (so-called two-by-four (2 × 4) method).

  The frame wall construction method is a structural plywood or other similar surface to a frame made of standardized processed wood (frame material) with a cross section of 38 mm (2 inches) thick × 89 mm (4 inches) wide This is a method of building a building with floors and walls that have been plastered with wood. Conventionally, in the construction by the frame wall construction method, the estimated amount of the above frame material based on the design drawing is carried to the site, and a skilled worker at the site calculates the size and shape of each part from the design drawing, and draws out the frame material. After opening and cutting, these members are assembled by nailing or the like.

  However, in recent years, it has become difficult to find out the dimensions and shapes of each part on the site and to inscribe the frame material due to a lack of skilled workers and manpower. Further, if cutting of the frame material or the like is performed on site, surplus end material is generated, so it is necessary to dispose of this surplus end material, which causes high costs. Therefore, in order to improve these problems, measures as described in Patent Documents 1 to 3 are considered.

  For example, in Patent Document 1, a virtual unit necessary for the configuration of a target building by a frame wall construction method is arranged among a plurality of virtual units each having a plurality of assembly elements and specifications are determined. A design process for positioning at a position corresponding to the actual position to be processed, and a process for supplying and supplying assembly elements necessary for the configuration of the target building based on the design results and the specifications of each virtual unit. And an integrated production method based on the design and production linkage of the frame wall construction method, which includes an assembly process in which the supplied assembly elements are assembled almost without being processed on site.

  Further, in the integrated production method based on the design and production linkage of the frame wall construction method described in Patent Document 1, in order to facilitate the combination of the assembly elements and the indication of the required nail driving position in the processing and supply process. In the field, it is said that the assembly can be performed very simply by combining the assembly elements in accordance with these markings and only driving nails.

  Further, in Patent Documents 2 and 3, the nail work is performed by pre-cutting the face material (panel member) to be nailed to the frame assembled in the frame wall construction method, and by marking and marking the position to be nailed to the frame. Therefore, a nail driving position marking system is disclosed that can level and improve the efficiency of the operation so that the nail can be driven correctly into an appropriate position without being a skilled worker.

Japanese Unexamined Patent Publication No. 7-32322 JP-A-11-210151 JP 2000-46086 A

  In the systems described in Patent Documents 2 and 3, the nail driving position is marked so that the nail can be correctly driven into an appropriate position without being a skilled worker. The purpose of these systems is as follows. This is the striking of the face material against the framework, not the assembly of the framework. However, in the frame wall construction method, the most skill is required for the assembly of the frame. Even if this system is used, the frame cannot be assembled unless it is made by a skilled worker.

  Also, with regard to the comprehensive production method described in Patent Document 1, by performing inking in the processing and supply process, which has been conventionally performed in the field, the assembly elements are simply combined in accordance with the inking and hammered. The assembly is made possible, and only the combination position of each assembly element and the position of nailing are marked. Therefore, the skilled worker has to determine which assembly element is actually arranged where, and only when the arrangement of each assembly element can be determined, nailing based on this marking becomes possible.

  Therefore, in the pre-cutting of the conventional frame wall construction method, a prefabrication method is used in which the frame of each unit is incorporated to some extent in the factory, transported to the site in advance, and only the work of combining the units is performed on site. . However, when transporting to the site in a state where each unit is framed in the factory as described above, the occupied area of the transported object becomes large, which causes a problem that the transportation cost increases.

  Accordingly, an object of the present invention is to provide a manufacturing apparatus and a manufacturing method for a frame material in a frame wall construction method that allows the frame material to be carried into the site without being assembled at all and to be easily assembled at the site. And

  An apparatus for manufacturing a frame material in the frame wall construction method of the present invention includes a means for storing design value data of a building constructed by the frame wall method, and an upper frame material, a lower frame material, a stud material, and a lintel that constitute the building frame. Processing data for processing each frame material including the lumber and the lintel support material, a marking line indicating a position where the stud material is disposed on the surface of the upper frame material in the short-side direction of the nominal cross section; Stud material and lintel support material are placed on the surface of the bottom frame material in the short-side direction of the nominal cross section. Data for printing the marking lines indicating the positions to be printed, the symbols indicating either the stud material or the lintel support material arranged in accordance with the position of each marking line, the top frame material, the bottom Frame materials, lintels and lintels Based on the processing data, means for generating processing data from design value data including data for printing a symbol indicating the type of each frame material on the surface in the short-side direction of the nominal cross section of each frame material And means for printing on each frame material.

  According to the manufacturing apparatus for the frame material in the frame wall construction method of the present invention, the marking line indicating the position where the stud material is disposed on the surface of the upper frame material in the short cross-sectional direction, and the position of each marking line Markings indicating the stud material arranged according to the markings, and marking lines indicating the positions where the stud material and the lintel support material are respectively arranged on the surface of the lower frame material in the short direction of the nominal cross section, respectively Each frame including the upper frame material, the lower frame material, the lintel material and the lintel support material printed with a symbol indicating either the stud material or the lintel support material arranged in accordance with the position of the marking line A symbol indicating the type of each frame material is printed on the surface in the short direction of the nominal cross section of the material, and each pre-cut frame material is obtained.

  Note that the nominal cross-sectional surface is a standardized wood used in the frame wall construction method (for example, in Japan, those standardized by the Japanese Agricultural Standards (JAS) or the Japanese Industrial Standards (JIS)). Used) is a surface in the nominal length direction where the shorter side (thickness side) of each side of the nominal cross section (for example, thickness 38 mm × width 89 mm) is located.

  Here, it is desirable that the processing data includes data for printing a unit symbol for identifying the wall panel unit formed by each frame material on the surface of each frame material in the nominal cross-sectional direction. . Thereby, a unit symbol for identifying the wall panel unit formed by each frame assembly material is printed on the surface of each frame assembly in the short direction of the nominal cross section, and each precut frame assembly material is obtained.

  Further, it is desirable that the processing data includes data for printing the length of each frame material on the surface of each frame material in the short direction of the nominal cross section. Thereby, the length of each frame assembly material is printed on the surface of each frame assembly in the short direction of the nominal cross section, and each precut frame assembly material is obtained.

  In addition, the processing data includes the length of the lintel support material, the length of the lintel and the length of the lintel on the surface of the upper frame material corresponding to the position where the lintel is arranged. It is desirable to include data for printing the thickness. As a result, the length of the lintel material, the length of the lintel and the thickness of the lintel are printed on the surface of the upper frame material corresponding to the position where the lintel is arranged. Thus, a pre-cut upper frame material is obtained.

  The manufacturing method of the frame material in the frame wall construction method of the present invention includes each frame frame material including an upper frame material, a lower frame material, a stud material, a lintel material, and a lintel support material that constitute a frame of a building constructed by the frame wall construction method. Is the processing data for processing the marking line on the surface of the upper frame material in the short-side direction of the nominal cross section, indicating the position where the stud material is placed, and arranging it according to the position of each marking line Data for printing a symbol indicating the stud material to be printed, a marking line indicating a position where the stud material and the lintel support material are respectively disposed on the surface of the lower frame material in the short-side direction of the nominal cross section, and Data for printing the stud material or the symbol indicating either the lintel support material arranged in accordance with the position of the marking line, and the upper frame material, the lower frame material, the lintel material and the lintel material On the surface of each frame material including Generating processing data including data for printing a symbol indicating the type of each frame material from the design value data of the building, and printing each frame material based on the processing data It is characterized by.

  According to the method of manufacturing a frame material in the frame wall construction method of the present invention, the marking line indicating the position where the stud material is disposed on the surface of the upper frame material in the short-side direction of the nominal cross section, and the position of each marking line Markings indicating the stud material arranged according to the markings, and marking lines indicating the positions where the stud material and the lintel support material are respectively arranged on the surface of the lower frame material in the short direction of the nominal cross section, respectively Each frame including the upper frame material, the lower frame material, the lintel material and the lintel support material printed with a symbol indicating either the stud material or the lintel support material arranged in accordance with the position of the marking line A symbol indicating the type of each frame material is printed on the surface in the short direction of the nominal cross section of the material, and each pre-cut frame material is obtained.

(1) According to the present invention, a marking line indicating a position where the stud material is disposed on the surface of the upper frame member in the short-side direction of the nominal cross section, and a stud disposed in accordance with the position of each marking line A symbol indicating the material is printed, and on the surface of the lower frame material in the short-side direction of the nominal cross section, a marking line indicating the position where the stud material and the lintel support material are respectively arranged, and the position of each marking line Nominal cross section direction of each frame material including upper frame material, lower frame material, lintel material and lintel support material printed with symbols indicating either stud material or lintel support material arranged together A symbol indicating the type of each frame material is printed on the surface of each frame, so that each pre-cut frame material can be obtained. Refer to the surface of each frame material in the short cross-section direction, where each frame material is placed. Each so you can see if they are assembled and assembled The nominal cross-sectional transverse direction of the surface of the assembled material is disposed in each of positions in the upper, it is possible to easily perform the assembly while checking on a plane. That is, according to the present invention, it is possible to carry the frame material into the site without assembling it at all and to easily assemble it at the site.

(2) A unit symbol for identifying the wall panel unit formed by each frame material is printed on the surface of each frame material in the short direction of the nominal cross section, and each pre-cut frame material is obtained. While assembling by placing the frame members in the respective positions with the nominal cross-sectional short side facing up, it is easy to check on this plane which frame panel member constitutes the frame material. Assembly can be performed.

(3) Since the length of each frame material is printed on the surface of each frame material in the short direction of the nominal cross section, and each precut frame material is obtained, the surface of each frame material in the short direction of the nominal cross section When assembling by placing them at the respective positions upward, the assembly can be performed while easily checking the length of each frame member.

(4) The length of the lintel material, the length of the lintel and the thickness of the lintel are printed on the surface of the upper frame material corresponding to the position where the lintel is arranged. As a result, a pre-cut upper frame material is obtained. When assembling by placing the upper frame material in the respective positions with the surface in the short-side direction of the nominal cross section facing up, the lower frame material is assembled under this upper frame material. The lintel can be easily confirmed.

  FIG. 1 is a schematic diagram showing an overall configuration of a frame material manufacturing apparatus in a frame wall construction method according to an embodiment of the present invention, and FIG. 2 is a block diagram of the frame material manufacturing apparatus of FIG.

  In FIG. 1, a frame material manufacturing apparatus in a frame wall construction method according to an embodiment of the present invention includes a computer 1 and a precut device 2 that processes each frame material. The computer 1 is a personal computer provided with an input device 1a such as a keyboard and a pointing device, a display device 1b such as a display, and the like. The precut device 2 is a device that performs processing such as cutting of a frame material based on processing data. In the following, an example in which the computer 1 and the precut device 2 are configured by separate devices will be described. However, these devices can be integrated or further subdivided.

  The computer 1 includes a CAD input means 10 for inputting various design value data of a building to be constructed by a frame wall construction method, a design value storage means 11 for storing various design value data and the like input by the CAD input means 10, and a design value A drawing means 12 for generating a drawing such as a plan, a frame drawing, an assembly drawing or the like from the design value data stored in the storage means 11, and a machining data generating means for generating processing data from the drawing generated by the drawing means 12 13.

  The CAD input means 10 inputs building specifications (quadrature) and inputs various design value data such as floor plans, openings and roofs. As the CAD input means 10, for example, a design data input device described in JP-A-2005-157839 previously disclosed by the present applicant can be used. The CAD input means 10 is not essential for the frame material manufacturing apparatus of the present invention, and may be configured to read data input by another CAD apparatus.

  The data stored in the design value storage means 11 is directly input by the CAD input device 10 or is automatically calculated based on various input design value data. For example, in the present embodiment, the design value data includes the position of a frame (upper frame, lower frame, eaves frame), the position of an opening, and the like.

  The drawing unit 12 generates drawings such as a plan view, a frame diagram, and an assembly drawing from the design value data stored in the design value storage unit 11. FIG. 3 is a diagram showing an example of a saddle frame plan view generated by the drawing means 12, and FIG. 4 is a diagram showing an example of an assembly drawing of the wall panel unit 2K1 shown in FIG. The drawing unit 12 can be integrated with the CAD input unit 10. The drawing generated by the drawing means 12 is stored in the design value storage means 11 as design value data.

  The processing data generation means 13 generates processing data for cutting each frame material and printing marking lines, symbols, and the like from the design value data stored in the design value storage means 11 by the precut device 2. To do. The processing data includes data for cutting each frame material into predetermined dimensions and shapes, and data for printing marking lines and symbols indicating where each frame material is arranged and assembled. And are included. FIG. 5 shows an example of each frame material processed by the processing data generated by the processing data generating means 13. 5A is an upper frame material, FIG. 5B is a lower frame material, FIG. 5C is a lintel material, FIG. 5D is a window base material, FIG. 5E is a lintel support material, and FIG. It is a material.

  For example, in the case of the upper frame member 30 shown in FIG. 5A, a stud material S (a standard frame member cut to a predetermined length in advance) is formed on the surface 31 of the upper frame member 30 in the short direction of the nominal cross section. ) Are printed, and a symbol “S” 33 indicating the stud material S arranged in accordance with the position of each marking line 32 is printed. The marking line 32 is for positioning in alignment with the surface of the stud material S in the longitudinal direction of the nominal cross section. In the present embodiment, two marking lines 32 are printed at the positions where the stud material S is arranged in order to match two surfaces of the stud material S in the short direction of the nominal cross section, and the stud material S is shown. The symbol “S” 33 is printed between the two marking lines 32. If it is clear which surface should match the marking line 32, the marking line 32 is set to 1. It is also possible to make a book.

  Further, on the upper frame member 30, a lintel is received by a surface 31 in a short direction of the nominal cross section corresponding to a position where the lintel material 50 is disposed, that is, a position where the opening M (see FIG. 4) is disposed. The length 34 of the material 70 and the length 35 and thickness (model) 36 of the lintel material 50 are printed. Further, on the same surface 31, the type of the frame material, that is, a symbol “we” 37 indicating the upper frame material 30, and a unit for identifying the wall panel unit constituted by the upper frame material 30 The symbol “2K1” 38 is printed.

  Further, in the case of the lower frame member 40 shown in FIG. 5B, the positions at which the stud material S and the lintel support member 70 are respectively arranged on the surface 41 in the short-side direction of the nominal cross section of the lower frame member 40 are shown. The marking line 42 and the symbol “S” 43a indicating the stud material S arranged in accordance with the position of each marking line 42 or the symbol “ma” 43b indicating the lintel receiving material 70 are printed. Like the upper frame member 30, the marking line 42 is printed so as to coincide with two surfaces 71 b of the stud material S in the short-side direction of the nominal cross section or two surfaces 71 b of the lintel support member 70 in the longitudinal direction of the nominal cross-section.

  Further, the lower frame member 40 has a length 44 of the window base material 60 on the surface 41 in the short direction of the nominal cross section corresponding to the position where the window base material 60 is arranged, that is, the position where the opening M is arranged. The length 45 of the lower bundle 80 is printed. Further, on the same surface 41, the type of the frame material, that is, the symbol “shita” 46 indicating the lower frame material 40, and a unit for identifying the wall panel unit constituted by the lower frame material 40 The symbol “2K1” 47 is printed.

  Moreover, the lintel 50 which uses the non-standardized wood for the lintel material 50, the window base material 60, the lintel receiving material 70, and the lower bundle material 80 which are shown to (c)-(f) of FIG. Each of the surfaces in the nominal cross-sectional direction (the surface corresponding to the thickness 36 in the case of the lintel material 50) 51, 61, 71a, 81 except for the symbol "Mug" 52 indicating the type of each frame material , “Die” 62, “Mau” 72, “Shits” 82, unit symbols “2K1” 53, 63, 73, 83, and lengths 54, 64, 74, 84 of the respective frame members are printed. .

  In addition, as a symbol other than the symbols described above, a symbol “3” 48 indicating that three stud materials S are arranged in a stacked manner, a symbol “P” indicating that a packing (not shown) is arranged, A symbol “PC” or the like indicating that an antenna receiver (PC hardware) is arranged may be printed. When a stud material of a type different from the initial setting is arranged, the type of the stud material (for example, “412”) may be printed.

  Returning to FIG. 2, the precut device 2 includes a printing unit 20 that prints on each frame material based on the processing data generated by the processing data generation unit 13, and the processing data generated by the processing data generation unit 13. And cutting means 21 for cutting each frame material based on the above. Based on the processing data, the printing means 20 has the marking lines 32, 42, symbols 33, 37, 39, 43a, 43b, 46, 48, 52, 62, 72, 82, length as described in FIG. 34, 35, 44, 45, 54, 64, 74, 84, thickness 36, unit symbols 38, 47, 53, 63, 73, 83, etc. are printed. The printing method may be any method such as an ink jet method or an inking method. Based on the processing data, the cutting means 21 includes an upper frame member 30, a lower frame member 40, a lintel member 50, a window base member 60, a lintel receiving member 70, a lower bundle member 80, and the like as shown in FIG. Each frame material is cut.

  According to the frame material manufacturing apparatus having the above-described configuration, the upper frame material 30 is created by inputting various design value data by the computer 1 to create processing data and processing each frame material by the pre-cut device 2. , The surfaces 31, 41, 61, 71 a, 81 in the transverse direction of the nominal cross section of each frame member such as the lower frame member 40, the window base member 60, the lintel receiving member 70 and the lower bundle member 80, and the thick lintel member 50. On the surface 51 corresponding to the length, marking lines 32, 42, symbols 33, 37, 39, 43a, 43b, 46, 48, 52, 62, 72, 82, lengths 34, 35, 44, 45, 54, 64, 74, 84, thickness 36, unit symbols 38, 47, 53, 63, 73, 83, etc. are printed, and each pre-cut frame material is obtained.

  When assembling each of these frame members on a plane, as shown in FIG. 6, the upper frame member 30, the lower frame member 40, the window base member 60, the lintel receiving member 70, the lower bundle member 80, etc. Since the surfaces 31, 41, 61, 71 a, 81 in the nominal cross-sectional direction of each frame member and the surface 51 corresponding to the thickness of the lintel material 50 are arranged on the upper surface, these surfaces 31, 41, 51 , 61, 71a, 81, it can be confirmed where the frame members are arranged and assembled. That is, according to each frame material obtained by the frame material manufacturing apparatus in the present embodiment, the surface 31, 41, 51, 61, 71a, 81 of each frame material is placed at each position, Since it is possible to easily assemble while confirming the above, it is possible to carry the frame assembly material into the site without being assembled at all, and to easily assemble at the site.

  In the frame material manufacturing apparatus according to the present embodiment, the unit symbol “2K1” for identifying the wall panel unit formed by each frame material on the surface 31, 41, 51, 61, 71a, 81 of each frame material. “38, 47, 53, 63, 73, 83 are printed, and each pre-cut frame material is obtained, so this surface 31, 41, 51, 61, 71a, 81 is placed at each position. When assembling, it is possible to assemble while easily confirming on this plane which frame panel member constitutes the frame member.

  Moreover, in the manufacturing apparatus of the frame material in this embodiment, the lengths 34, 35, 44, 45, 54, 64 of each frame material are provided on the surfaces 31, 41, 51, 61, 71a, 81 of each frame material. 74 and 84 are printed and precut frame members are obtained. When the assembly is performed with the surfaces 31, 41, 51, 61, 71 a, 81 placed in the respective positions, the upper frame The lengths 34, 35, 44, 45 and the thickness 36 printed on the material 30 and the lower frame material 40, and the lintel material 50, the window base material 60, the lintel material 70 and the lower bundle material 80 are printed. It is possible to check the lengths 54, 64, 74, and 84 and perform assembly.

  In particular, in the frame member manufacturing apparatus according to the present embodiment, the length 34 of the lintel support member 70 is provided on the surface 31 in the short-side direction of the nominal cross section of the upper frame member 30 corresponding to the position where the lintel member 50 is disposed. Since the length 35 of the lintel material 50 and the thickness 36 of the lintel material 50 are printed, the upper frame material 30 is arranged at each position with the surface 31 in the short direction of the nominal cross section facing up. When assembling, it is possible to easily check the lintel member 50 to be assembled under the upper frame member 30.

  The present invention is useful as an apparatus and method for manufacturing a frame material in a frame wall construction method. In particular, the present invention is suitable as an apparatus and method for manufacturing a frame material that can be brought into the field without assembling the frame material and assembled easily at the field.

It is the schematic which shows the whole structure of the manufacturing apparatus of the frame material in the frame wall construction method in embodiment of this invention. It is a block diagram of the manufacturing apparatus of the frame material of FIG. It is a figure which shows the example of the produced hail frame plan. It is a figure which shows the example of the assembly drawing of the wall panel unit shown in FIG. It is a perspective view which shows the example of each frame material processed with the produced | generated processing data, (a) is an upper frame material, (b) is a lower frame material, (c) is a lintel material, (d). Is a figure showing a window base material, (e) a lintel receiving material, and (f) a lower bundle material. It is a perspective view which shows a mode that each frame assembly material of FIG. 5 is assembled on a plane.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Computer 2 Precutting device 10 CAD input means 11 Design value storage means 12 Drawing means 13 Processing data generation means 20 Printing means 21 Cutting means 30 Upper frame material 40 Lower frame material 50 Lining material 60 Window base material 70 Lining material 80 Lower bundle material 31, 41, 61, 71a, 81 Nominal cross-sectional surface 32, 42 Mark line 33, 37, 39, 43a, 43b, 46, 48, 52, 62, 72, 82 Symbol 34, 35 , 44, 45, 54, 64, 74, 84 Length 36 Thickness 38, 47, 53, 63, 73, 83 Unit symbol

Claims (5)

Means for storing design value data of a building to be constructed by a frame wall construction method;
The processing data for processing each frame material including the upper frame material, the lower frame material, the stud material, the lintel material and the lintel receiving material constituting the building frame,
A marking line indicating a position where the stud material is arranged and a symbol indicating a stud material arranged in accordance with the position of each marking line are printed on the surface of the upper frame member in the short direction of the nominal cross section. Data to do,
A marking line indicating a position at which the stud material and the lintel receiving material are respectively disposed on a surface of the lower frame member in a short sectional direction of the nominal cross section, and a stud material disposed according to a position of each marking line. Or data for printing a symbol indicating one of the lintels,
Processing including data for printing a symbol indicating the type of each frame material on the surface in the nominal cross-sectional short direction of each frame material including the upper frame material, the lower frame material, the lintel material, and the lintel support material Means for generating business data from the design value data;
An apparatus for manufacturing a frame material in a frame wall construction method, comprising: means for printing on each frame material based on the processing data.   2. The processing data includes data for printing a unit symbol for identifying a wall panel unit formed by each frame material on a surface of each frame material in the nominal cross-sectional direction. Manufacturing equipment for frame materials in the frame wall construction method.   The frame material in the frame wall construction method according to claim 1 or 2, wherein the processing data includes data for printing the length of each frame material on a surface of each frame material in a short direction of a nominal cross section. Manufacturing equipment.   The processing data includes the length of the lintel material, the length of the lintel, and the lintel on the surface of the upper frame material corresponding to the position where the lintel is disposed. The apparatus for manufacturing a frame material in the frame wall construction method according to any one of claims 1 to 3, comprising data for printing the thickness of the material. Processing data for processing each frame material including an upper frame material, a lower frame material, a stud material, a lintel material and a lintel support material that constitute a frame of a building to be constructed by the frame wall construction method,
A marking line indicating a position where the stud material is arranged and a symbol indicating a stud material arranged in accordance with the position of each marking line are printed on the surface of the upper frame member in the short direction of the nominal cross section. Data to do,
A marking line indicating a position at which the stud material and the lintel receiving material are respectively disposed on a surface of the lower frame member in a short sectional direction of the nominal cross section, and a stud material disposed according to a position of each marking line. Or data for printing a symbol indicating one of the lintels,
Processing including data for printing a symbol indicating the type of each frame material on the surface in the nominal cross-sectional short direction of each frame material including the upper frame material, the lower frame material, the lintel material, and the lintel support material Generating data for the building from the design value data of the building;
A method of manufacturing the frame material in the frame wall construction method, including the step of printing on each frame material based on the processing data.

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