JP2004169403A - Construction method for partition wall and partition wall structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a construction method for a partition wall and a partition wall structure by which the partition wall can be installed easily and accurately when the partition wall is joined with a sloped ceiling surface, the cost of the wall can be reduced and workability can be improved. <P>SOLUTION: The construction method for the partition wall has a process in which a rod-shaped intermediate partition member (a wall panel 50 upper than a picture rail) is disposed between two opposed wall surfaces 30 in a plurality of wall surfaces 30, a process in which a lower partition member 70 in which both upper/lower ends are supported by the lower section of the partition member 50 and a floor face 40 is disposed, and a process in which an upper partition member 60 in which both upper/lower ends are supported by the sloped ceiling surface 20 and the upper section of the partition member 50 is disposed. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a method of constructing a partition wall provided in a building and a partition wall structure.
[0002]
[Background technology]
2. Description of the Related Art Conventionally, a building such as a house is provided with a partition wall that partitions an internal space.
The partition wall includes, for example, a rectangular board, an H-shaped receiving member (H-shaped steel) disposed on the upper and lower edges of the board, and a wall material such as a gypsum board stretched on both sides of the board. The partition panel is formed by connecting a plurality of partition panels, and a groove-shaped concave portion is provided on upper and lower end surfaces of the partition panel. Such a partition panel is fixed to a ceiling runner and a floor runner provided on a ceiling and a floor by fitting respective concave portions on upper and lower end surfaces thereof (for example, see Patent Document 1).
[0003]
[Patent Document 1]
JP-A-9-279726
[Problems to be solved by the invention]
By the way, in order to attach a partition panel as disclosed in Patent Document 1 to an inclined ceiling surface (inclined ceiling), for example, a triangular shape having an upper portion inclined to correspond to the inclination angle of the inclined ceiling is used. A partition panel is manufactured in advance, and firstly, the partition panel is disposed on a floor surface, and then a sloping ceiling is formed. And the partition wall is formed by fixing the formed gradient ceiling and the upper part of the partition panel.
[0005]
As described above, since the slope ceiling is formed after the partition panel is provided, it is difficult to remove the partition panel without processing the slope ceiling when it becomes necessary to remove the partition wall in the future. There was a problem.
Also, in order to fix the upper part of the partition panel to the sloping sloping ceiling, the upper end face of the partition panel must be precisely processed and the inclination angle must be strictly controlled, which requires time and labor for construction. was there.
In addition, since a plurality of partition panels having different upper inclination angles according to the inclination angle of the inclined ceiling must be manufactured in advance, there is a problem that the manufacturing cost is increased.
When the distance from the floor surface to the slope ceiling surface is long, a substantially rectangular wall panel is provided on the floor surface, and a triangular partition panel (arrow cut panel) is provided above the wall panel. It may be attached to form a partition wall.
In this case, only the lower part of the wall panel before the arrow cut panel is attached is fixed (supported) to the floor surface. Therefore, for example, there is a problem that the workability of the partition wall is deteriorated, for example, it is necessary for the operator to attach the arrow cut panel while supporting the upper part of the wall panel.
[0006]
An object of the present invention is to consider the above-described problem, and can be easily and accurately installed when joining a partition wall to a sloped ceiling surface, and can achieve cost reduction and improvement in workability. It is an object of the present invention to provide a partition wall construction method and a partition wall structure.
[0007]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, for example, as shown in FIG. 1, a method of constructing a partition wall 10 for partitioning a space having a sloped ceiling surface 20, a floor surface 40, and a plurality of wall surfaces 30 as shown in FIG. A step of arranging a rod-shaped middle partition member (small wall panel 50) between two opposing wall surfaces 30 of the plurality of wall surfaces 30, and a lower portion of the middle partition member 50 and the floor surface 40. A step of disposing a lower partition member 70 whose upper and lower ends are supported, and a step of disposing an upper partition member 60 whose upper and lower ends are supported by the inclined ceiling surface 20 and the upper part of the middle partition member 50. It is characterized by.
[0008]
According to the first aspect of the present invention, when constructing the partition wall 10, first, the rod-shaped middle partition member 50 is disposed between the two facing wall surfaces 30, and thereafter, the upper and lower ends of the lower partition member 70. Is supported by the middle partition member 50 and the floor surface 40, and both upper and lower ends of the upper partition member 60 are supported by the inclined ceiling surface 20 and the middle partition member 50.
Accordingly, the lower partition member 70 is not only supported at its lower part by the floor surface 40, but also has its upper part supported by the middle partition member 50. For example, when the partition wall is constructed, the worker can use the lower partition member. There is no need to support the upper part of the upper part 70, and the workability can be improved.
Further, for example, as in a conventional partition wall construction method, it is not necessary to form a sloping ceiling after disposing the partition panel on the floor surface, and even if it becomes necessary to remove the partition wall 10 in the future, A large space can be easily obtained without the need for processing the inclined ceiling surface 20.
[0009]
The invention according to claim 2 is the method for constructing a partition wall according to claim 1, wherein the upper partition member 60 includes a lower runner 62 disposed above the middle partition member 50, and the slope. An upper runner 61 disposed on the ceiling surface 20, a plurality of columnar support members 63 whose lower end is supported by the lower runner 62, and whose upper end is supported by the upper runner 61, and a surface material fixed to these support members 63 The lower runner 62 is formed of a channel having an upward opening 62a, and the upper runner 61 is formed of a channel having a downward opening 61a.
[0010]
According to the second aspect of the invention, the same effects as those of the first aspect can be obtained, and the upper runner 61 and the lower runner 62 have the downward opening 61a and the upward opening 62a, respectively. The joining operation can be easily performed when joining the 62 to the inclined ceiling surface 20 or the upper part of the middle partition member 50 with bolts or screws, or when joining the support member 63 to each runner. In addition, by providing a plurality of support members 63 fixed to the upper runner 61 and the lower runner 62 and a face member fixed to the support member 63, the partition wall 10 can have a stronger structure, and durability can be improved. It can provide an excellent partition wall.
In addition, it is not necessary to previously manufacture a plurality of partition panels having different upper inclination angles in accordance with the inclination angle of the inclined ceiling surface 20, and the upper end surface of the partition panel is accurately processed to precisely adjust the inclination angle. It is no longer necessary to manage the work, and the manufacturing cost and the labor and time required for construction can be reduced.
[0011]
The invention according to claim 3 is the method for constructing a partition wall according to claim 1 or 2, wherein the lower partition member 70 is provided on at least one surface of a frame body in which a core material 71 is assembled in a frame shape. It is characterized by comprising a panel body (wall panel 73) formed by fixing a face material (gypsum board 72).
[0012]
According to the third aspect of the invention, the same effect as in the first or second aspect can be obtained, and the lower partition member 70 is provided on at least one surface of a frame body in which the core material 71 is assembled in a frame shape. Since the panel 72 is formed by fixing the member 72, the workability of the partition wall 10 can be improved.
[0013]
The invention according to claim 4 is the method for constructing a partition wall according to any one of claims 1 to 3, wherein the middle partition member 50 is a frame body in which a core member 51 is assembled in a frame shape. It is characterized by comprising a panel body formed by fixing a face material (gypsum board 52) to at least one surface.
[0014]
According to the invention described in claim 4, the same effect as any one of claims 1 to 3 can be obtained, and the middle partition member 50 is at least a frame body in which a core material 51 is assembled in a frame shape. Since the panel member is formed by fixing the face material 52 to one surface, the workability of the partition wall 10 can be improved.
[0015]
The invention according to claim 5 is the method for constructing a partition wall according to any one of claims 1 to 4, wherein a lower part of the middle partition member 50 and a lower partition of the lower part of the middle partition member 50 are provided below the middle partition member 50. An adjusting member 53 for adjusting the dimension of a gap formed between the member 70 and the upper portion is provided.
[0016]
According to the fifth aspect of the invention, the same effect as in any one of the first to fourth aspects can be obtained, and the adjusting member 53 provided below the middle parting member 50 allows the middle parting member 50 to be provided. The gap between the lower portion of the lower partition member and the upper portion of the lower partition member 70 can be reduced to provide a partition wall having an excellent aesthetic effect.
[0017]
The invention according to claim 6 is a partition wall structure for partitioning a space having a sloped ceiling surface 20, a floor surface 40, and a plurality of wall surfaces 30, and between two opposed wall surfaces 30 among the plurality of wall surfaces. A rod-shaped middle partition member 50 to be disposed, a lower partition member 70 whose upper and lower ends are supported by a lower portion of the middle partition member 50 and the floor surface 40, and an upper portion of the inclined ceiling surface 20 and the middle partition member 50. And an upper partition member 60 whose upper and lower ends are supported by the upper partition member.
[0018]
According to the invention of claim 6, by disposing the rod-shaped middle partition member 50 disposed between the two facing wall surfaces 30, by disposing the lower partition member 70 and the upper partition member 60, For example, as in the conventional partition wall construction method, it is not necessary to form the sloped ceiling after the partition panels are arranged on the floor, and even if it becomes necessary to remove the partitioning wall 10 in the future, the sloped ceiling can be removed. A large space can be easily obtained without the need for processing the surface 20.
[0019]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
1 and 2 show a partition wall structure according to the present invention.
In the present embodiment, the house H on which the partition wall 10 is arranged is a two-story house having a sloped roof, and the partition wall 10 is applied as a wall for dividing the space on the second floor into two living rooms.
[0020]
In the following description, for convenience, the inclined surface of the ceiling surface is referred to as “graded ceiling surface 20”, and the other surface is simply referred to as “ceiling surface 21”.
The space on the second floor refers to a space surrounded by a plurality of wall surfaces 30 (only one wall surface is shown in FIG. 1), a sloped ceiling surface 20, a ceiling surface 21, and a floor surface 40.
[0021]
The partition wall 10 is roughly composed of a middle partition member 50, an upper partition member 60 and a lower partition member 70 arranged above and below the middle partition member 50, and the like.
The middle partition member 50 is a rod-shaped member installed between one wall surface 30 shown in FIG. 1 and the wall surface 30 (see FIG. 2) facing the wall surface 30, and serves as a small wall of the partition wall 10. It is a functioning member.
The middle partition member 50 is a panel-shaped member (panel body) formed by attaching a gypsum board 52 as a face material to a surface of a frame configured by assembling a core material 51 in a frame shape. The gypsum board 52 may be attached to both the left and right surfaces of the frame, or may be attached to only one of the left and right surfaces.
[0022]
In the following description, the middle partition member 50 is referred to as “small wall panel 50”. An adjusting member 53 (see FIG. 4B), which is a substantially rectangular plate, is joined to the lower surface of the small wall panel 50 to change the length of the adjusting member 53 in the vertical direction. Thereby, the size of the gap formed between the lower part of the middle partition member 50 and the upper part of the lower partition member 70 can be adjusted.
[0023]
The lower partition member 70 is a member whose upper and lower ends are supported by the lower portion of the small wall panel 50 and the floor surface 40.
The lower partitioning member 70 applies a wall panel 73 (panel body) formed by attaching a gypsum board 72 as a surface material to the surface of a frame formed by assembling a core material 71 in a frame shape, in the front-rear direction. It is configured by arranging continuously. The gypsum board 72 may be stuck on both left and right surfaces of the frame, or may be stuck on only one of the left and right surfaces.
As shown in FIG. 4B, the upper end portion of the gypsum board 72 projects slightly upward from the upper end of the frame, and the gypsum board 72 is reinforced on the back surface of the projecting portion. Reinforcement member 74 is attached.
In the present embodiment, an opening 75 is formed in a part of the lower partition member 70, and a panel in which the length in the vertical direction of the wall panel 73 is shortened above the opening 75 (the partition wall panel 76). ) Is arranged.
[0024]
The upper partition member 60 is a member whose upper and lower ends are supported by the inclined ceiling surface 20 and the upper portion of the small wall panel 50.
The upper partition member 60 is roughly composed of an upper runner 61, a lower runner 62, a plurality of support members 63, and a face member (not shown) fixed to these support members 63.
[0025]
The upper runner 61 is a thin steel material having a substantially U-shaped cross section and having a downward opening 61a, and is formed by a well-known fastening member such as a screw 61b (see FIG. 6). 21.
The lower runner 62 is a thin steel material having a substantially U-shaped cross section and an upward opening 62a, and is formed on the upper surface of the small wall panel 50 by a well-known fastening member such as a screw 62b (see FIG. 6). Are joined.
[0026]
The support member 63 is a rod-shaped member whose length in the left-right direction is slightly shorter than the length in the left-right direction of the inner surfaces of the openings 61a, 62a of the upper runner 61 and the lower runner 62.
Each support member 63 is fixed (supported) in a state where its upper and lower ends abut on the inner surfaces of the opening 61 a of the upper runner 61 and the opening 62 a of the lower runner 62.
Then, an upper partition member 60 is formed by joining a gypsum board as a surface material cut to correspond to the shapes of the inclined ceiling surface 20 and the ceiling surface 21 to the left and right side surfaces of the support member 63.
[0027]
Next, a method of constructing the partition wall 10 having the above-described configuration will be described. First, as shown in FIG. 3 (A), in a state where the small wall panel 50 is erected between two opposing wall surfaces 30, as shown in FIG. It is fixed using nails 54 up to 30.
Next, as shown in FIGS. 4A and 4B, the adjusting member 53 is fixed to the lower surface of the small wall panel 50. The small wall panel 50 may be fixed to the wall surface 30 in a state where the adjusting material 53 is fixed to the small wall panel 50 in advance.
[0028]
Next, as shown in FIG. 4B, an upper receiving member 55 slightly shorter than the length of the adjusting member 53 in the left-right direction is attached to the lower surface of the adjusting member 53.
At this time, one of the left and right surfaces of the small wall panel 50 (the right surface in the present embodiment) is substantially flush with the right surfaces of the adjusting member 53 and the upper receiving member 55. .
The upper receiving member 55 may be attached so as to cover the entire area of the adjusting member 53 in the longitudinal direction (front-back direction), or a plurality of upper receiving members 55 may be attached at predetermined intervals in the longitudinal direction of the adjusting member 53.
[0029]
Then, the back surface of the reinforcing member 74 of the wall panel 73 and the left side surface of the upper receiving member 55 are joined in a state where they are in contact with each other.
As shown in FIG. 4C, the lower receiving surface 55 is not attached to the portion of the lower surface of the small wall panel 50 that is joined to the partitioning small wall panel 76, and the lower surface of the adjusting material 53 and the partitioning small wall panel 76 are not attached. Are joined in a state where the upper surface is directly contacted.
[0030]
Next, as shown in FIGS. 5A and 5B, the upper runner 61 is joined to the ceiling surface 21 and the inclined ceiling surface 20, and the lower runner 62 is joined to the upper surface of the small wall panel 50.
The upper part of FIG. 6 shows a joint structure between the upper runner 61 and the sloped ceiling surface 20 at a location surrounded by reference numeral A1 in FIG.
The upper runner 61 and the sloped ceiling surface 20 are fixed by using screws 61b that penetrate the gypsum board 20a of the roof panel constituting the sloped ceiling surface 20 from the inner surface of the upper runner 61 and reach the roof core material 20b. I have.
[0031]
The lower part of FIG. 6 shows a joint structure between the lower runner 62 and the small wall panel 50 at a location surrounded by reference numeral A2 in FIG.
The lower runner 62 and the small wall panel 50 are fixed by using screws 62b penetrating the core material 51 above the small wall panel 50 from the inner surface of the lower runner 62.
FIG. 7A shows a joint structure between the upper runner 61 and the ceiling surface 21 at a portion surrounded by reference numeral A3 in FIG.
Using a screw 61c extending from the inner surface of the upper runner 61 through the gypsum board 21a constituting the ceiling surface 21 to a steel core material 21b having a substantially U-shaped cross section and having an opening at the upper part, The runner 61 and the ceiling surface 21 are fixed.
When the steel core material 21b is arranged along the arrangement direction (front-back direction) of the small wall panel 50, the joint structure between the upper runner 61 and the ceiling surface 21 is shown in FIG. 7B. Become like
[0032]
Then, the plurality of support members 63 are inserted into and fixed to the opening 61a of the upper runner 61 and the opening 62a of the lower runner 62 at predetermined intervals in the front-rear direction. If necessary, the support 63 and the upper runner 61 and the lower runner 62 may be fixed using screws or the like.
Then, although not shown, the gypsum board is joined to the left and right side surfaces of the support member 63, and the construction of the partition wall 10 is completed.
[0033]
As described above, according to the method of constructing the partition wall 10 and the partition wall structure shown in the present embodiment, when constructing the partition wall 10, first, a rod-shaped middle partition member between two opposing wall surfaces 30. After that, the upper and lower ends of the lower partition member 70 are supported by the middle partition member 50 and the floor surface 40, and the upper and lower ends of the upper partition member 60 are supported by the gradient ceiling surface 20 and the middle partition member 50.
Accordingly, since the lower partition member 70 has its lower part supported by the floor surface 40 and its upper part supported by the middle partition member 50, for example, an operator supports the upper part of the lower partition member 70 when constructing the partition wall. This eliminates the need and improves workability.
Further, even if it becomes necessary to remove the partition wall 10 in the future, a large space can be easily obtained without the necessity of processing the inclined ceiling surface 20.
Further, since the upper runner 61 and the lower runner 62 have a downward opening 61a and an upward opening 62a, respectively, the respective runners 61, 62 are joined to the upper part of the inclined ceiling surface 20 and the small wall panel 50 by screws 61b, 62b and the like. In this case, the workability when the support member 63 is fixed to the runners 61 and 62 can be improved. In addition, by providing a plurality of support members 63 fixed to the upper runner 61 and the lower runner 62 and a face member fixed to the support member 63, the partition wall 10 can have a more rigid structure and durability. It can provide an excellent partition structure.
[0034]
Further, unlike the conventional partition wall structure, there is no need to previously manufacture a plurality of partition panels having different upper inclination angles according to the inclination angle of the inclined ceiling surface 20, and the upper end face of the partition panel can be precisely formed. It is not necessary to strictly control the inclination angle by performing the processing well, and it is possible to suppress the manufacturing cost and the labor and time required for the construction. In addition, since the lower partition member 70 and the middle partition member 50 are formed of panel bodies, the workability of the partition wall 10 can be improved.
Further, the gap between the lower portion of the middle partition member 50 and the upper portion of the lower partition member 70 can be reduced by the adjusting member 53 disposed below the middle partition member 50, so that the partition wall structure has an excellent aesthetic effect. Can be provided.
[0035]
In the present embodiment, a panel-shaped member formed by attaching a face material (gypsum board 52) to the surface of a frame formed by assembling a core material 51 in a frame shape as a middle partition member 50 is used. However, the present invention is not limited to this, and any rod-like member that can be installed between the two wall surfaces 30 may be used.
In addition, although a panel-shaped member (wall panel 73) is used as the lower partition member 70, the present invention is not limited to this, and both the upper and lower ends are supported by the lower part of the small wall panel 50 and the floor surface 40, and two spaces are formed. Any plate-like member that can be divided into living rooms may be used. The adjusting member 53 and the upper receiving member 55 are attached to the lower surface of the small wall panel 50, and the reinforcing member 74 is attached to the upper part of the gypsum board 72 of the wall panel 73, and the small wall is attached via the upper receiving member 55 and the reinforcing member 74. Although the panel 50 and the wall panel 73 are joined, the present invention is not limited to this, and a structure in which the lower part of the small wall panel 50 and the upper part of the wall panel 73 are directly joined may be used.
[0036]
【The invention's effect】
According to the invention described in claim 1, when constructing the partition wall, first, a rod-shaped middle partition member is disposed between two opposing wall surfaces, and then upper and lower ends of the lower partition member are middle partition members. And the floor, and the upper and lower ends of the upper partition member are supported by the inclined ceiling surface and the middle partition member.
Therefore, the lower partition member, not only the lower part thereof is supported on the floor surface, but also the upper part thereof is supported by the middle partition member.For example, when constructing the partition wall, the worker may move the upper part of the lower partition member. There is no need to support, and the workability can be improved.
Further, for example, as in the conventional partition wall construction method, it is no longer necessary to form a gradient ceiling after the partition panels are arranged on the floor surface, and even if it becomes necessary to remove the partition walls in the future, the gradient A large space can be easily obtained without the need for ceiling processing.
[0037]
According to the second aspect of the present invention, the same effects as those of the first aspect can be obtained, and the upper runner and the lower runner have downward and upward openings, respectively. When joining to a ceiling surface or the upper part of a middle partition member, and when joining a support material to each runner, joining work can be performed easily. In addition, by providing a plurality of support members fixed to the upper runner and the lower runner, and a surface material fixed to the support member, the partition wall can have a stronger structure, and a partition structure having excellent durability. Can be provided.
In addition, there is no need to previously manufacture a plurality of partition panels having different upper inclination angles according to the inclination angle of the gradient ceiling, and the upper end face of the partition panel is accurately processed to precisely control the inclination angle. This eliminates the need to perform, and can reduce the manufacturing cost and the labor and time required for construction.
[0038]
According to the invention as set forth in claim 3, the same effect as in claim 1 or 2 can be obtained, and the lower partition member is provided with a face material on at least one surface of a frame body in which a core material is assembled in a frame shape. Since it is composed of a fixedly formed panel body, the workability of the partition wall can be improved.
[0039]
According to the invention described in claim 4, the same effect as any one of claims 1 to 3 can be obtained, and the middle partition member is at least one of a frame body in which a core material is assembled in a frame shape. Since the panel member is formed by fixing the face material to the surface, the workability of the partition wall can be improved.
[0040]
According to the fifth aspect of the present invention, the same effect as any one of the first to fourth aspects can be obtained, and the adjusting member provided at the lower portion of the middle partition member allows the lower portion of the middle partition member to The space between the lower partition member and the upper portion can be reduced to provide a partition wall structure having an excellent aesthetic effect.
[0041]
According to the invention of claim 6, by disposing the rod-shaped middle partition member 50 disposed between the two facing wall surfaces 30, by disposing the lower partition member 70 and the upper partition member 60, For example, as in the conventional partition wall construction method, it is not necessary to form the sloped ceiling after the partition panels are arranged on the floor, and even if it becomes necessary to remove the partitioning wall 10 in the future, the sloped ceiling can be removed. A large space can be easily obtained without the need for processing the surface 20.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a partition wall structure according to the present embodiment.
FIG. 2 is a side view showing a partition wall structure.
FIG. 3 is a perspective view (A) and a plan view (B) showing a method of constructing a partition wall.
FIG. 4 is a perspective view (A) and front views (B) and (C) illustrating a method of constructing a partition wall.
FIG. 5 is perspective views (A) and (B) showing a method of constructing a partition wall.
FIG. 6 is a front view showing a joint structure of a partition wall.
FIGS. 7A and 7B are front views (A) and (B) showing a joint structure of a partition wall.
[Explanation of symbols]
Reference Signs List 10 partition wall 20 slope ceiling surface 30 wall surface 40 floor surface 50 middle partition member 51 core material 52 surface material (plaster board)
53 Adjusting material 60 Upper partition member 61 Upper runner 61a Downward opening 62 Lower runner 62a Upward opening 63 Supporting material 70 Lower partitioning member 71 Core material 72 Surface material (plaster board)

Claims (6)

A method of constructing a partition wall that partitions a space having a sloped ceiling surface, a floor surface, and a plurality of wall surfaces,
Arranging a rod-shaped middle partition member between two opposing wall surfaces of the plurality of wall surfaces,
A step of disposing a lower partition member whose upper and lower ends are supported by a lower portion and a floor surface of the middle partition member,
Arranging an upper partition member whose upper and lower ends are supported by the sloped ceiling surface and an upper portion of the middle partition member. It is a construction method of the partition wall according to claim 1,
The upper partition member is a lower runner disposed above the middle partition member, an upper runner disposed on the slope ceiling, a lower end is supported by the lower runner, and an upper end is supported by the upper runner. With a plurality of columnar support members and a surface material fixed to these support members,
The method of constructing a partition wall, wherein the lower runner is formed of a channel material having an upward opening, and the upper runner is formed of a channel material having a downward opening. It is a construction method of the partition wall according to claim 1 or 2,
The method of constructing a partition wall, wherein the lower partition member is a panel body formed by fixing a face material to at least one surface of a frame body in which a core material is assembled in a frame shape. It is a construction method of the partition wall according to any one of claims 1 to 3,
The method of constructing a partition wall, wherein the middle partition member is a panel body formed by fixing a face material to at least one surface of a frame body in which a core material is assembled in a frame shape. It is a construction method of the partition wall according to any one of claims 1 to 4,
A method for constructing a partition wall, comprising: an adjusting member for adjusting a dimension of a gap formed between a lower portion of the middle partition member and an upper portion of the lower partition member, below the middle partition member. A partition wall structure that partitions a space having a gradient ceiling surface, a floor surface, and a plurality of wall surfaces,
A rod-shaped middle partition member disposed between two opposing wall surfaces of the plurality of wall surfaces,
A lower partition member whose upper and lower ends are supported by a lower portion and a floor surface of the middle partition member,
A partition wall structure, comprising: an upper partition member whose upper and lower ends are supported by the inclined ceiling surface and an upper portion of the middle partition member.

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