JP2004211321A - Building method for building using exterior wall panel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a building method for a building which enables a short construction period by saving labor for the execution of work on a job site, and which enables a large astylar space to be formed inside while eliminating waste in terms of structural strength. <P>SOLUTION: A first exterior wall panel 1, whose side part is equipped with a main-column-cum-vertical-panel-frame-material 3 singly serving as a structural main column, and a second exterior wall panel 2, which is not equipped with the main-column-cum-vertical-panel-frame-material, are used and erected without the erection of a column after the formation of a foundation 16, so that the material 3 can be coupled to the foundation 16 so as to serve as a main column 17. In that case, the panels 1 and 2 are erected so as to establish the arrangement relation of provision of a part, wherein at least two exterior wall panels exist, between the adjacent main columns 17 and 17. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a method for building a building using an outer wall panel.
[0002]
[Prior art]
In the construction of a store building or an office building having a steel frame structure using an outer wall panel, a pillar is erected after the foundation is formed, and thereafter, the outer wall panel is constructed.
[0003]
[Problems to be solved by the invention]
However, in the method of constructing the outer wall panel after the pillar standing, the pillar standing process and the outer wall panel constructing process must be sequentially performed at the site, and in the method of constructing the outer wall panel. Since the pillars have already been built, the exterior wall panels must be carefully constructed while paying attention to the relationship with the pillars, and the exterior wall panels and the pillars must be connected on site. Therefore, there is a problem that construction on site requires much time and effort.
[0004]
The present invention has been made in view of such a background, and it is an object of the present invention to provide a method for building a building using an outer wall panel that can save labor on site and achieve a short construction period. In addition, the present invention provides a construction method of a building that can save labor on site and achieve a short construction period, and can form a wide pillar-free space inside without wasting structural strength. The task is to provide.
[0005]
[Means for Solving the Problems]
The above-mentioned problem is caused by a first outer wall panel provided with a main pillar / vertical panel frame material on its side, which alone becomes a main structural column, and a second outer wall panel not provided with such a main pillar / vertical panel frame material. Of at least the first outer wall panel,
After the foundation is formed, the outer wall panel is constructed without pillars, and the vertical pillar frame material that is also used as the main pillar is connected to the foundation to form the main pillar,
At this time, a solution is provided by a building method of a building, wherein the outer wall panels are constructed so as to have an arrangement relationship of providing at least two outer wall panels between the adjacent main pillars. Is done.
[0006]
In this method, the outer wall panel is provided with a main pillar / vertical panel frame material, and the outer wall panel is constructed, and the main pillar / vertical panel frame material is connected to the foundation to form a main pillar. There is no need to make pillars in the construction work, but the main pillars can be provided in the building, and the construction on site can be labor-saving and the short construction period can be realized.
[0007]
Moreover, in the above method, the outer wall panels are constructed so as to have an arrangement relationship in which at least two outer wall panels are present between the main columns thus formed. A wide column-free space can be formed inside while eliminating waste in strength.
[0008]
That is, an outer wall panel provided on both sides with a main panel forming vertical panel frame material that is combined into a bundle to form a structural main column is used, and a main column forming vertical panel frame is provided between adjacent outer wall panels. A method of forming a main structural column by combining two materials in a bundle is also conceivable.
[0009]
According to this method, it is possible to eliminate the weight difference between the left and right main pillar forming vertical panel frame members and to position the center of gravity of the outer wall panel at the center in the width direction, thereby facilitating construction of the outer wall panel. In addition, the vertical panel frame material used for each outer wall panel can be unified.
[0010]
However, in this method, there is a main column in all of the adjacent outer wall panels, and the interval between the main columns is equal to the interval of one outer wall panel, so that the number of main columns is large, and each main column has a load of the building. The main column is designed to be relatively weak in terms of strength in order to eliminate structural strength waste. . In that case, the weight of the horizontal members that can be passed between the main pillars across the building is limited, and it is not possible to pass large span horizontal members, so that a wide column-free space is formed inside. Deriving the problem of difficulty.
[0011]
Therefore, in the method of the present invention, the outer wall panels are constructed in such an arrangement that at least two outer wall panels are provided between the main pillars. As a result, the number of main pillars can be reduced, and the load to be applied to the main pillars can be increased. As a result, a structurally strong vertical frame material that can also be used as a main pillar while eliminating structural strength waste. Can be used to reinforce the main pillar. In this way, the span of the horizontal member that can be passed between the main columns so as to cross the building can be increased, and a building having a wide column-free space inside can be formed.
[0012]
Further, the above-mentioned problem is solved by a first outer wall panel having a main panel forming vertical panel frame material on a side portion which is combined into a bundle to form a main structural column, and such a main column forming vertical panel. Using at least the first outer wall panel of the second outer wall panels without the frame material,
After the foundation is formed, the outer wall panels are constructed without connecting the pillars, and the vertical panel frame material for forming the main pillars is connected to the foundation to form two bundles to form the main pillars.
At this time, the building method of the building is characterized in that the building of the outer wall panels is performed so as to have an arrangement relationship in which at least two outer wall panels are present between the adjacent main pillars. Similarly resolved,
According to this method, the construction on site can be labor-saving, a short construction period can be realized, and a wide pillar-free space can be formed inside while eliminating structural strength waste.
[0013]
In addition, basically, a first outer wall panel provided with a main pillar / vertical panel frame material on its side, which alone becomes a main structural column, and a second outer wall panel not provided with such a main pillar / vertical panel frame material. Using at least a first outer wall panel of the outer wall panels,
After the foundation is formed, without using pillars, the outer wall panels are constructed and the main pillars are also connected to the vertical pillar frame material as the main pillars. Construction can be labor-saving and a short construction period can be realized.
[0014]
Further, a first outer wall panel having a main panel forming vertical panel frame material on a side portion which is combined into a bundle to form a main structural column, and no such main column forming vertical panel frame material is provided. Using at least the first outer wall panel of the second outer wall panels,
After the foundation is formed, the outer wall panels are constructed without pillars, and the main panel forming vertical panel frame material is connected to the foundation to form the structural main pillars. In addition, labor on site can be saved and a short construction period can be realized.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of the present invention will be described with reference to the drawings.
[0016]
The first embodiment shown in FIG. 1 to FIG. 3 is a first outer wall panel 1 having a main pillar / vertical panel frame member 3 on its side, which is used alone as a main structural column, and such a main pillar / vertical vertical. This is a case in which a building is constructed using the second outer wall panel 2 having no panel frame material 3.
[0017]
In the present embodiment, as shown in FIGS. 2A-1 to 2A-4, the first outer wall panel 1 includes a main panel / vertical panel frame member 3 on one of the left and right sides. The vertical panel frame material 3 also serves as a pillar is made of H-shaped steel.
[0018]
Also, on the other of the left and right sides of the first outer wall panel 1, a vertical panel frame material which is inferior in strength to the main pillar even when combined in two bundles. One of the panel frame members 4 and 5 is provided, and the strong vertical panel frame material 4 for forming studs is made of a channel steel, and the weak vertical panel frame material 5 for forming studs is made of a thin lip-shaped channel steel. Has become.
[0019]
On the other hand, as shown in FIGS. 2 (B-1) to (B-4), the second outer wall panel 2 is not provided with the main pillar / vertical panel frame member 3 as described above, and the left and right vertical panels are provided. Either the frame material is a strong vertical panel frame material 4 for forming a stud, or any of the frame materials is a weak vertical panel frame material 5 for forming a stud. An outer wall panel which is a weak vertical panel frame member 5 for forming a stud is configured.
[0020]
In addition, in these first and second outer wall panels 1 and 2, the outer wall panels in which neither the left or right vertical panel frame members nor the stud forming weak vertical panel frame members 5 are used are made of braces or steel plates. The load-bearing element 13 is incorporated into the load-bearing outer wall panel.
[0021]
Also, 14 is an outer wall material, and 15 is an interior board, either one or both of which may be attached to the outer wall panels 1 and 2 in advance, or the construction of the outer wall panels 1 and 2 has been completed. It may be attached later. Further, one or both of the outer wall material 14 and the interior board 15 can be detachably attached to the outer wall panels 1 and 2 irrespective of whether they are the former or the latter. It should be done.
[0022]
The construction of the building uses the first and second outer wall panels 1 and 2 described above and forms the first and second outer wall panels 1 and 2 without forming a pillar after forming the foundation 16. The vertical panel frame member 3 also serves as a main pillar and is connected to a foundation 16 to form a 17 main pillar. The other vertical panel frame members 4 and 5 are similarly connected to the foundation 16. Thereby, the outer wall panels 1 and 2 are connected to the foundation 16.
[0023]
As shown in FIG. 1, the outer wall panels 1 and 2 are constructed between at least two outer wall panels between adjacent main columns 17, and in this embodiment, four outer wall panels 1 and 2. The operation is performed so as to provide an arrangement relationship in which a portion including 2, 2, and 1 is provided.
[0024]
It should be noted that the construction may be performed such that there is only a portion having at least two outer wall panels between adjacent main columns, or at least two outer wall panels may be provided between adjacent main columns. May be performed in such a way that the arrangement where the part where the exists and the part where one outer wall panel exists between the adjacent main columns is mixed. In that case, it is also possible to use the first outer wall panel alone and not to use the second outer wall panel to perform the above-described arrangement. When a part where one outer wall panel is present between adjacent main pillars is partially provided, an outer wall panel provided with a main pillar vertical panel frame material on both the left and right sides is one of the first outer wall panels. The construction may be performed by using one of them.
[0025]
According to the above-described construction method, the outer wall panel 1 is provided with the main pillar / vertical panel frame member 3, and the outer wall panel 1 is constructed to connect the main pillar / vertical panel frame member 3 to the foundation 16 to form the main column. Because it is 17, it is possible to eliminate the pillar post process in front of the outer wall panel construction in the construction work on site, save labor on site and build the building in a short construction period it can.
[0026]
Moreover, since the outer wall panels 1 and 2 are constructed so that there are four outer wall panels between the main columns 17 and 17 formed by the main column vertical panel frame member 3, the main building is used in the building. By reducing the number of the pillars 17, it is possible to increase the load to be applied to the main pillars 17, whereby the main pillars also serve as the main pillar vertical frame member 3, while eliminating waste in structural strength. Things can be adopted. As a result, for example, a heavy-weight, large-span horizontal member 18 such as a parallel-string truss as shown in FIG. 3 is used as the horizontal member to be passed between the main pillars 17 so as to cross the building. It is possible to form a building having a large pillar-free space 19 inside.
[0027]
The second embodiment shown in FIGS. 4 to 6 includes a first outer wall panel 11 having a main panel forming vertical panel frame member 6 on a side portion which is combined into a bundle to form a main structural column, This is a case in which a building is constructed using the second outer wall panel 12 that does not include the vertical panel frame member 6 for forming a main pillar.
[0028]
In this embodiment, as shown in FIGS. 5A-1 to 5A, the first outer wall panel 11 includes the main pillar forming vertical panel frame member 6 on one or both sides. The vertical panel frame member 6 for forming the main pillar is made of thick channel steel.
[0029]
Further, the other of the first outer wall panels 11 in which one of the vertical panel frame members 6 for forming a main pillar is weaker in strength than the main pillar even when combined in a bundle of two. As in the case of the first embodiment, the panel frame material is composed of one of the two types of vertical panel frame materials 4 and 5 for forming the studs in the same manner as in the first embodiment, and the strong vertical panel frame material 4 for forming the studs is The weak vertical panel frame member 5 for forming studs is made of a thinner lip-shaped channel steel.
[0030]
On the other hand, the second outer wall panel 12 is not provided with the above-mentioned main panel forming vertical panel frame member 6 as shown in FIGS. Either the panel frame material is a strong vertical panel frame material 4 for forming a stud, or any of the panel frame materials is a weak vertical panel frame material 5 for forming a stud. Is composed of the outer wall panel of the strong vertical panel frame member 5 for stud formation.
[0031]
In these first and second outer wall panels 11 and 12, braces or bracelets are used for the outer wall panels 11 and 12 in which the weak vertical panel frame member 5 for forming a stud is not used in any of the left and right vertical panel frame members. A load-bearing element 13 such as a steel plate is incorporated into the load-bearing outer wall panel. Reference numeral 14 denotes an outer wall material, and reference numeral 15 denotes an interior board, which are the same as those in the first embodiment.
[0032]
The construction of the building uses the first and second outer wall panels 11 and 12 to form the first and second outer wall panels 11 and 12 without forming a pillar after forming the foundation 16. Then, the main column 17 is formed by connecting the vertical panel frame member 6 for forming the main column to the foundation 16 to form a bundle of two. At this time, at least two outer wall panels, that is, in this embodiment, four outer wall panels 11, 12, 12, 11 are provided between the adjacent main pillars 17, 17 so as to have an arrangement relationship. Next, the outer wall panels 11 and 12 will be constructed.
[0033]
It should be noted that the construction may be performed such that there is only a portion having at least two outer wall panels between adjacent main columns, or at least two outer wall panels may be provided between adjacent main columns. May be performed in such a way that the arrangement where the part where the exists and the part where one outer wall panel exists between the adjacent main columns is mixed. Further, such an arrangement relation may be established using only the first outer wall panel 11.
[0034]
Also in this construction method, the outer wall panel 1 is provided with the vertical panel frame member 6 for forming the main pillar, and the outer wall panel 1 is constructed to combine the two vertical panel frame members 6 for forming the main column into a bundle. Since the pillars 17 can be formed, similarly to the case of the first embodiment, it is possible to eliminate the pillar setting process before constructing the outer wall panel in the construction work at the site, thereby saving labor at the site. The building can be built quickly.
[0035]
Moreover, since the outer wall panels 11 and 12 are constructed so that four outer wall panels exist between the main columns 17 and 17 formed by the main column forming vertical panel frame member 6, in the building, The number of the main pillars 17 can be reduced to increase the load to be applied to the main pillars 17, so that the main pillar forming vertical frame member 6 that forms the main pillars while eliminating structural strength waste can be strengthened. As a cross member to be passed between the main columns 17 and 17 so as to cross the building, as in the case of the first embodiment, a large-span horizontal member having a large weight is used. Can be used, and a building having a large column-free space inside can be formed.
[0036]
Although the embodiment of the present invention has been described above, the present invention is not limited to this, and various changes can be made without departing from the spirit of the invention. For example, in the above-described embodiment, a case is shown in which the outer wall panels are constructed so as to have an arrangement relationship in which at least two outer wall panels are present between the main pillars. In the method, the outer wall panels are constructed so that there is an arrangement relationship in which one outer wall panel exists between the main columns formed by the main column vertical frame members or the main column forming vertical panel frame members. In that case, even in such a case, it is possible to eliminate the pillars in front of the outer wall panels in the construction work at the site, to save labor on site and to shorten the construction period. Can be.
[0037]
Further, in the above embodiment, the case where the main pillar and the stud are provided is shown. However, the stud may be omitted and only the main pillar may function as the pillar. Further, the form of the vertical panel frame material in the present invention is not limited, and may be a circular or square steel pipe material or various forms of shaped steel material. Further, the present invention can be used not only for buildings having a steel frame structure but also for buildings having various frame structures using an outer wall panel, such as a wooden frame structure.
[0038]
【The invention's effect】
Since the present invention is as described above, labor on site can be saved and a short construction period can be realized. In addition, it is possible to save labor on site and to achieve a short construction period, and to form a wide column-free space inside without wasting structural strength.
[Brief description of the drawings]
FIG. 1 is a plan view showing an example of an arrangement relationship of outer wall panels according to a first embodiment.
FIGS. 2A to 2B are plan views showing types of first outer wall panels, and FIGS. 2B to 2B are second outer wall panels, respectively. It is a panel top view which shows the kind of.
FIG. 3 is a view taken along line II of FIG. 1;
FIG. 4 is a plan view according to the second embodiment, showing an example of an arrangement relationship of outer wall panels.
5 (a-1) to FIG. (A-4) are panel plan views showing types of first outer wall panels, respectively, and FIGS. (B-1) to (b-4) are second outer wall panels, respectively. It is a panel top view which shows the kind of.
FIG. 6 is a view taken along the line II-II in FIG. 4;
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... 1st outer wall panel 2 ... 2nd outer wall panel 3 ... Main column and vertical panel frame material 6 ... Main column formation vertical panel frame material 11 ... 1st outer wall panel 12 ... 2nd outer wall panel 16 ... Foundation 17 ... Main column

Claims (4)

At least one of a first outer wall panel provided with a main column / vertical panel frame member which is a main structural column and a second outer wall panel not provided with such a main column / vertical panel frame member. Using the first outer wall panel,
After the foundation is formed, the outer wall panel is constructed without pillars, and the vertical pillar frame material that is also used as the main pillar is connected to the foundation to form the main pillar,
At this time, the method of building a building is characterized in that the outer wall panels are constructed so as to have an arrangement relationship in which at least two outer wall panels are present between the adjacent main pillars. A first outer wall panel provided with a main panel forming vertical panel frame material on a side portion which is combined into a bundle to form a structural main column, and a second outer panel not provided with such a main column forming vertical panel frame material. Using at least a first outer wall panel of the outer wall panels,
After the foundation is formed, the outer wall panels are constructed without connecting the pillars, and the vertical panel frame material for forming the main pillars is connected to the foundation to form two bundles to form the main pillars.
At this time, the method of building a building is characterized in that the outer wall panels are constructed so as to have an arrangement relationship in which at least two outer wall panels are present between the adjacent main pillars. At least one of a first outer wall panel provided with a main column / vertical panel frame member which is a main structural column and a second outer wall panel not provided with such a main column / vertical panel frame member. Using the first outer wall panel,
A method of building a building, comprising: constructing an outer wall panel without forming a pillar after forming a foundation; and connecting a vertical panel frame material serving also as a main pillar to a foundation to form a main pillar. A first outer wall panel provided with a main panel forming vertical panel frame material on a side portion which is combined into a bundle to form a structural main column, and a second outer panel not provided with such a main column forming vertical panel frame material. Using at least a first outer wall panel of the outer wall panels,
After the foundation is formed, the outer wall panels are constructed without pillar standing, and the vertical pillar frame material for main pillar formation is connected to the foundation to form two bundles to form the main pillar. Building method.

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