JP2002070160A - Column structure and column construction method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a column structure and a column construction method capable of minimizing an increase of the number of part items without changing the connection details with an outer wall panel or a horizontal member for increasing the yield strength of a column. SOLUTION: A main column 1 is provided with a fitting section (nut 3) for fitting the outer wall panel 2A, and a reinforcing column 9 is erected on the rear face side of the main column 1. The lower end of the main column 1, the lower end of the reinforcing column 9, and a plate 15 are connected together on a base plate 12 by welding or the like. Plates 10, 11, 15 are provided between the main column 1 and the reinforcing column 9, and they are fixed together by being welded to both columns 1 and 9. Such cases that the required column yield strength exceeds the yield strength of the main column 1 at different degrees can be coped with by preparing a reinforcing column 9A and a reinforcing column 9B different in reinforcing force (different in cross sectional size) as the reinforcing column 9.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pillar structure of a building and a method of constructing the pillar.

[0002]

2. Description of the Related Art The required strength of pillars of a building built in a snowy area is higher than in a non-snowy area. Therefore, a building designed for an area that is not a snowy area cannot be directly applied to a snowy area, and the thickness of the pillar is increased, the cross-sectional diameter of the pillar is increased, or both are performed. It corresponds by that.

[0003]

By the way, there is a building structure in which an outer wall panel or a lateral member (beam, etc.) is attached to a pillar. When the above conventional measures are implemented in such a building structure,
Since the pillar sizes are different, it is necessary to shift the mounting position of the outer wall panel or the horizontal member or to change the mounting method (change of details). Moreover, not only are pillars for heavy snow areas and pillars for areas other than snowy areas necessary, but also the number of parts increases due to changes in the details of arrangement, and there is a dissatisfaction that production efficiency is reduced.

SUMMARY OF THE INVENTION In view of the above circumstances, the present invention is to increase the strength of a column without changing the details of connection with an outer wall panel or a horizontal member, and to minimize the increase in the number of parts. It is an object to provide a structure and a method of constructing a pillar.

[0005]

In order to solve the above-mentioned problems, a pillar structure according to the present invention comprises a main column provided with a mounting portion for an outer wall panel, and a main column on a base on which the main column is built. A reinforcing column is provided adjacent to the outer wall panel so as not to interfere with the mounting of the outer wall panel, and the main column and the reinforcing column are connected to each other.

With the above configuration, the proof strength of the column structure as a whole exceeds the proof strength of the main pillar itself, and the present invention can be applied to a building requiring a high proof strength. And the main pillar itself can be used in common because it does not need to be changed just because a high column strength is required, so it is not necessary to change the detail with the exterior wall panel In addition, an increase in the number of parts can be suppressed as much as possible.

The height of the reinforcing columns is preferably set lower than the position at which the horizontal members are attached to the main columns. With such a configuration, it is possible to eliminate the need to change the details in connection with the horizontal member. Further, it is preferable that at least the main column of the main column and the reinforcing column is a steel tube column. If the steel pipe column has a rectangular cross section, it is easy to face the reinforcing column on a flat surface formed by the rectangular cross section and join them together.

[0008] The pillar construction method of the present invention is a pillar construction method for responding to a demand for increasing the strength required for the pillar, and the strength of the pillar exceeds the strength of the main pillar provided with the outer wall panel mounting portion. When required, one type of reinforcing column or two or more types of reinforcing columns different from each other are provided on the base on which this main column is built so as to be adjacent to the main column and not to interfere with the mounting of the outer wall panel. It is characterized by building a reinforcement column selected from among them and connecting these main columns and reinforcement columns.

With the above construction, the proof strength of the column structure as a whole exceeds the proof strength of the main pillar itself, and the present invention can be applied to a building requiring a high proof strength. And the main pillar itself can be used in common because it does not need to be changed just because a high column strength is required, so it is not necessary to change the detail with the exterior wall panel In addition, an increase in the number of parts can be suppressed as much as possible. In addition, when building a reinforcing column by selecting from two or more types with different reinforcing strengths, it is possible to cope with the case where the required column strength exceeds the strength of the main column and the degree of exceeding is different. it can.

[0010] Two or more types of reinforcing columns having different reinforcing forces may have different cross-sectional sizes. Here, two or more types of reinforcing columns having different reinforcing forces may be made to have the same cross-sectional size and different wall thickness, for example, but this makes it easy to distinguish the two types of reinforcing columns on the appearance. No longer. With the above configuration, it is easy to distinguish the two types of reinforcing columns on the external appearance, and it is possible to prevent mounting errors of the reinforcing columns.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will now be described with reference to FIG.
This will be described with reference to FIG. FIG. 1 is a sectional view showing a pillar structure, FIG. 2 is a sectional view of the pillar structure showing a case where the outer wall panel is different from FIG. 1, and FIG. 3 is a side view showing the pillar structure.

1 (a) and 1 (b), a main column 1 is made of a thin-walled rectangular steel tube column having a rectangular cross section, and its long side is arranged to be orthogonal to the surface of the outer wall panel 2A. . Nuts 3 are fixed to the surfaces (both sides) of the main pillar 1 in the long side direction by welding or the like. The outer wall panel 2A is mainly composed of, for example, a calcium silicate plate, and a panel frame 4 is attached to the back surface thereof. A through hole is formed in a vertical frame (having a substantially L-shaped cross section) 4A of the panel frame 4 at a position corresponding to the nut 3, and a bolt 5 is screwed into the nut 3 through the through hole. Thereby, the outer wall panel 2A is fixed to the main pillar 1. A surface facing the outer wall panel 2A (a front surface) which is a short side direction of the main pillar 1.
Adjacent end faces of the two outer wall panels 2A are located at a predetermined distance from a substantially center of the outer wall panel 2A. The adjacent end faces do not closely contact to form a gap, and the gap is filled with the silicone resin 6. Further, in a portion between the front surface of the main pillar 1 and the back surface of the outer wall panel 2 and corresponding to the gap filled with the silicone resin 6, foamed polyethylene is vertically provided as a backup material 7, and further, A secondary waterproof material 8 is provided on both sides of the backup material 7 in the same vertical direction so as to sandwich the backup material 7 therebetween.

A reinforcing column 9 is erected on the rear side of the main column 1.
The reinforcing column 9A shown in FIG. 1A is made of a thin-walled square steel tubular column having a square cross section having the same length as the short side of the main column 1, and FIG.
The reinforcement column 9B shown in FIG. 1 is formed of a thin-walled square steel tube column having a square cross section and a length longer than the short side of the main column 1. The reinforcing column 9B has a higher reinforcing force than the reinforcing column 9A. Plates 10, 11, and 15 are interposed between the main column 1 and the reinforcing columns 9, and are fixed to each other by welding these to the columns 1, 9. The plate material 15 provided at the lowermost end and the plate material 11 provided at the uppermost side are gusset plates, which are wider than the columns.

2 (a) and 2 (b), the main pillar 1 is shown in FIG.
And are commonly used even if the outer wall panels are different. The outer wall panel 2B is mainly composed of, for example, an extruded cement board, and a panel frame 4 'is attached to the back surface thereof. A vertical frame (having a substantially L-shaped section) 4A in the panel frame 4 'includes
A through-hole is formed at a position corresponding to the nut 3, and the outer wall panel 2 </ b> B is fixed to the main column 1 by screwing a bolt 5 to the nut 3 through the through-hole. Adjacent end faces of the two outer wall panels 2B are located at a predetermined distance from a substantially center of a surface (front surface) facing the outer wall panel 2B, which is a surface in the short side direction of the main pillar 1. The adjacent end faces do not closely contact with each other to form a gap, and a portion of the gap on the outdoor side is filled with the silicone resin 6. In addition, a backup material 7 is provided in a vertical direction between a portion where the silicone resin 6 is not filled and a front surface of the main pillar 1 in the gap,
Further, secondary waterproofing members 8 are provided in the same vertical direction on both sides of the backup member 7 so as to sandwich a portion located between the front surface of the main pillar 1 and the back surface of the outer wall panel 2B.

A reinforcing column 9 is erected on the rear side of the main column 1. The reinforcing column 9A shown in FIG. 2A is the same as the reinforcing column 9 shown in FIG.
2A is the same as the reinforcing column 9B shown in FIG.
It is the same as the reinforcing column 9B shown in (b). Plates 10, 11, and 15 are interposed between the main column 1 and the reinforcing columns 9, and are fixed to each other by welding these to the columns 1, 9. The plate material 15 provided at the lowermost end and the plate material 11 provided at the uppermost side are gusset plates, which are wider than the columns.

The interconnection between the main column 1 and the reinforcing column 9 may be performed at a factory or at a construction site.
Here, which of the reinforcing columns 9A and 9B is selected as the reinforcing column 9 depends on the difference in the strength required for the columns of the building using the column structure. The factory is provided with a reinforcing column 9A and a reinforcing column 9B, and any one is selected based on the design specification, and the selected reinforcing column 9 and the main column 1 are connected. That is, by preparing two types of reinforcing columns 9A and 9B, it is possible to cope with the case where the required column strength exceeds the strength of the main column and the degree to which the strength is different. Of course, depending on the strength required for the columns of the building, the reinforcing columns 9 may not be connected.

FIG. 3 is a side view showing the pillar structure. The lower end of the main column 1 and the lower end of the reinforcing column 9 are joined to the base plate 12 by welding or the like. This bonding is preferably performed at the factory, but does not exclude that it is performed at the construction site. The lowermost plate 15 of the plates is also joined to the base plate 12 by welding or the like. The base plate 12 is arranged on a foundation 13. At the upper part of the main column 1, a steel pipe truss beam 14 which is a horizontal member
Are joined at one end. The steel pipe truss beam 14 is composed of an upper chord steel pipe 14a, a lower chord steel pipe 14b, and diagonal members (lattices) 14c which are disposed and fixed obliquely between the steel pipes.
The height of the reinforcing column 9 is lower than the position where the steel pipe truss beam 14 is attached to the main column 1 (lower than the lower chord steel pipe 14b).
Is set to

As described above, since the reinforcing column 9 is connected to the main column 1, the strength of the column structure as a whole exceeds the strength of the main column 1 itself, and the present invention is applied to a building requiring a high column strength. Can be. The main pillar 1 itself is not divided even when high column strength is required, but is used in common even when different column strength is required. Therefore, the outer wall panel 2A (2B) is used. It is not necessary to change the details in connection with (1), and the increase in the number of parts can be suppressed as much as possible. Further, by setting the height of the reinforcing columns 9 below the position where the truss beams 14 are attached to the main column 1, it is not necessary to change the details of the engagement with the truss beams 14. Although an example in which a square steel pipe column is employed as the main column 1 has been described, the present invention is not limited to this, and a round steel pipe may be used. However, if a square steel pipe column is used, there is obtained an advantage that the reinforcing column 9 can be easily joined to the reinforcing column 9 facing the flat surface. In addition, the reinforcing columns 9A and 9B have the same thickness and different cross-sectional sizes, but are not limited thereto. For example, the thickness may be different for the same cross-sectional size. However, this makes it difficult to distinguish between the two types of reinforcing columns on the appearance. According to this embodiment in which the thickness is the same and the cross-sectional size is different, it is easy to distinguish the two types of reinforcing columns on the appearance,
It is possible to prevent mounting errors of the reinforcing columns.

[0019]

As described above, according to the column structure and the column construction method of the present invention, it is possible to minimize an increase in the number of parts without changing the details of connection with the outer wall panel and the horizontal member. It has the effect of being able to.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view showing a column structure according to an embodiment of the present invention. FIG. 1A shows a case where a reinforcing column 9A is used, and FIG. 1B shows a case where a reinforcing column 9B is used. Is shown.

FIG. 2 is a cross-sectional view showing a pillar structure (an outer wall panel is different from that of FIG. 1) according to the embodiment of the present invention. FIG. 2A shows a case where a reinforcing pillar 9A is used, and FIG. ) Is the reinforcing column 9B
Is used.

FIG. 3 is a side view of the pillar structure according to the embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Main pillar 2, 2A, 2B Outer wall panel 9, 9A, 9B Reinforcement pillar 10 Board material 12 Base plate 13 Foundation 14 Steel pipe truss beam

 ──────────────────────────────────────────────────続 き Continued on the front page (72) Inventor Takumi Haga 3-3-5 Umeda, Kita-ku, Osaka-shi, Osaka Daiwa House Industry Co., Ltd. F-term (reference) 2E163 FA02 FB09 FB47 FB50

Claims (5)

[Claims] 1. A main column provided with a mounting portion for an outer wall panel, and a reinforcing column built on a base on which the main column is built so as to be adjacent to the main column so as not to interfere with the mounting of the outer wall panel. A pillar structure comprising: connecting these main pillars and reinforcing pillars. 2. The column structure according to claim 1, wherein the height of the reinforcing column is set below a position where the horizontal member is attached to the main column. 3. The column structure according to claim 1, wherein at least the main column of the main column and the reinforcing column is a steel tube column. 4. A method for constructing a pillar for responding to a demand for increasing the strength required for a pillar, wherein a strength exceeding a strength of a main pillar provided with a mounting portion for an outer wall panel is required. On the base on which this main column is to be built, a reinforcing column prepared from one type or two or more types having different reinforcing strengths is installed next to the main column and so as not to buffer the mounting of the outer wall panel. And a pillar construction method comprising connecting the main pillar and the reinforcing pillar. 5. The pillar construction method according to claim 4,
A column construction method, wherein two or more types of reinforcing columns having different reinforcing forces have different cross-sectional sizes.