JP2020176380A - Foundation structure of building - Google Patents

Abstract

To provide a technique capable of simply structuring a foundation footing using a pile cap even when a vertical width of a clearance formed between a foundation surface and a foundation beam changes.SOLUTION: In a foundation structure of a building provided with a foundation footing F installed on a pile head part 3a of a pile 3 buried in a ground 1, the foundation footing F is structured with a pile cap 50 comprising: a steel pipe part 10 vertically installed on a ground surface 1a to cover the pile head part 3a and filled with concrete 18 in its inside; and a steel beam part 15 penetratingly connected through an upper end part of the steel pipe part 10 on which a column part 16 is installed in an upper part of the pile head part 3a, wherein plural pile caps of different scale, which are mutually different in length of the steel pipe part 10, are provided as the pile cap 50.SELECTED DRAWING: Figure 1

Description

The present invention relates to a foundation structure of a building having a foundation footing installed at the pile head of a pile buried in a board.

As foundation footing to be installed on each of the pile heads of multiple piles buried in the ground, a steel pipe part that is erected on the ground surface so as to cover the pile heads and is filled with concrete inside, and the pile heads. There is known a foundation structure of a building using a pile cap having a steel beam portion in which a pillar portion to be built above is installed and is pierced to the upper end portion of a steel pipe portion (for example, Patent Document 1). reference.).

JP-A-2017-008543

In the foundation structure of a conventional building using the pile cap as the foundation footing as described above, basically, a plurality of pile caps are installed on the ground surface leveled to a horizontal plane, and at the upper end of the steel pipe portion of the pile cap. It is assumed that the height (level) of the foundation beam composed of the steel beam portions to be through-joined is the same throughout. For this reason, as the steel pipe portions of the plurality of pile caps, those having the same length in the vertical direction are used.
That is, in the foundation structure of such a conventional building, for example, when the ground surface is undulating by omitting the leveling work, or when the foundation beams are arranged in a stepped manner, the steel pipe portion stands up. When the clearance (void) formed between the ground surface to be installed and the foundation beam composed of the steel beam portion joined to the upper end of the steel pipe portion changes, the pile cap as foundation footing is easy. There was a problem that it could not be adopted.
In view of this situation, the main problem of the present invention is that the vertical width of the clearance formed between the ground surface and the foundation beam changes, and the foundation footing can be easily constructed by using the pile cap. The point is to provide the technology that can be done.

The first characteristic configuration of the present invention is a foundation structure of a building having a foundation footing installed at the pile head of a pile buried in the ground.
A steel pipe portion in which the foundation footing is erected on the ground surface so as to cover the pile head and is filled with concrete, and a pillar portion built above the pile head are installed in the steel pipe portion. It is composed of a pile cap having a steel beam part that is through-joined to the upper end part.
The pile cap is provided with a plurality of different-sized pile caps having different lengths of the steel pipe portions.

According to this configuration, since the foundation footing is composed of the pile cap, for example, a foundation beam composed of a ground surface on which the steel pipe portion is erected and a steel beam portion joined to the upper end portion of the steel pipe portion. The foundation structure of a building can be constructed in the form of forming a clearance (gap) having a vertical width as large as possible between the two.
Then, for example, when the ground surface is undulating by omitting the leveling work, or when the foundation beams are arranged in a stepped manner, the ground surface on which the steel pipe portion is erected and the upper end portion of the steel pipe portion. Even if the clearance (void) formed between the jointed steel beam and the foundation beam changes, the length of the steel pipe of each different-sized pile cap should be set along the vertical direction. The foundation footing can be easily configured by the extra-sized pile cap in a form set according to the above clearance at the installation location.
Therefore, according to the present invention, the vertical width of the clearance formed between the ground surface and the foundation beam changes, and the foundation structure of the building can be easily constructed by using the pile cap. Can be provided.

The second characteristic configuration of the present invention is a plurality of the plurality of different-sized pile caps in which the length of the steel pipe portion is set according to the undulations of the ground surface so that the level of the upper end surface of the steel pipe portion is substantially the same. The upper end of the is equipped with the same level pile cap.

According to this configuration, the levels of the steel beam portions joined to the upper end portions of the steel pipe portions of the plurality of upper end same level pile caps are substantially the same, so that the steel beam portions are connected horizontally. It is possible to construct a foundation beam without steps in the direction.

The third characteristic configuration of the present invention is that, as the plurality of different-sized pile caps, a plurality of upper-end different-level pile caps having different levels of the upper end surfaces of the steel pipe portion are provided.

According to this configuration, the levels of the steel beam portions joined to the upper end portions of the steel pipe portions of the plurality of upper end different level pile caps are different, so that the foundation beam is stepped by each of these steel frame beam portions. Can be placed in.

The fourth characteristic configuration of the present invention is that the foundation beam composed of the steel beam portion of the upper end high level pile cap having a high level of the upper end surface of the steel pipe portion in the plurality of upper end different level pile caps adjacent to each other. The level of the upper end surface of the steel pipe portion is lower than that of the upper end high level pile cap. It is joined to the pillar portion installed in the upper end low level pile cap, and the foundation beam joined to the pillar portion and the upper end low level pile. A reinforcing member is interposed between the cap and the upper end surface of the steel pipe portion.

According to this configuration, the foundation beam composed of the steel beam portion of the upper end high level pile cap and the foundation beam composed of the steel frame beam portion of the upper end low level pile cap form the foundation beam arranged in a stepped manner. Can be built. Then, the foundation beam composed of the steel frame beam portion of the upper end high level pile cap can be stably and firmly supported by the pillar portion on the upper end low level pile cap side and the reinforcing member to which the foundation beam is connected.

The fifth characteristic configuration of the present invention is that in the plurality of different-sized pile caps, the embedding length of the pile head with respect to the steel pipe portion is set to be substantially the same.

According to this configuration, the embedded lengths of the pile heads of the plurality of different-sized pile caps are set to be substantially the same, so that it is not necessary to adjust or lengthen the embedded lengths of the pile heads, for example. , It is possible to construct a plurality of different-sized pile caps corresponding to changes in the vertical width of the clearance formed between the ground surface and the foundation beam.

The figure which shows the schematic structure of the foundation structure of the building of 1st Embodiment The figure which shows the schematic structure of the foundation structure of the building of 2nd Embodiment Longitudinal section of pile cap Top view of the pile cap shown in FIG. Top view of another form of pile cap Top view of another form of pile cap Top view of another form of pile cap Top view of another form of pile cap

As shown in FIGS. 1 and 2, the foundation structure of the present embodiment includes a foundation footing F installed at a pile head 3a of a pile 3 buried in the ground 1.
First, the detailed configuration of the pile pile cap 50 constituting the basic footing F will be described.
As shown in FIGS. 3 and 4, the pile cap 50 is built above the steel pipe portion 10 formed in a tubular shape surrounding the pile head 3a of the pile 3 and filled with concrete 18 and above the pile head 3a. The pillar portion 16 to be inserted is joined to have a steel beam portion 15 that penetrates the steel pipe portion 10 and extends laterally.

The steel pipe portion 10, the column portion 16, and the steel frame beam portion 15 are integrally assembled in advance as a pile cap unit, and are carried to the construction site. The pile cap unit preassembled in this way is installed on the upper surface (ground surface 1a) of the concrete 2 constructed on the upper part of the ground 1 with the steel pipe portion 10 surrounding the pile head 3a, and the steel pipe portion. The standing posture is adjusted by height-adjustable adjusting bolts 31 provided at a plurality of locations on the outer periphery of the lower end portion of 10. Then, after closing the gap formed at the lower end of the steel pipe portion 10 with a mortar 30 or the like, concrete 18 is cast inside the steel pipe portion 10 to be constructed as a part of the foundation structure.

In addition, another beam member 5 uses a splice plate and a high-strength bolt at the tip of the steel beam portion 15 constituting the pile cap 50 at a timing such as before placing the concrete 18 inside the steel pipe portion 10. The foundation beam H is formed by the steel frame beam portion 15 and the beam member 5 connected to the steel frame beam portion 15 connected via the joint portion 6. Then, the slab S is constructed on it. Further, another pillar member 7 is also connected to the upper end portion of the pillar portion 16.

The steel beam portion 15 is made of H-shaped steel having flanges at the top and bottom. As shown in FIG. 3, the steel beam portion 15 is inserted into a notch formed in the upper end portion 10a of the steel pipe portion 10, and the upper end portion thereof is flush with the upper end portion of the steel pipe portion 10. It is placed at a height. Further, as shown in FIG. 4, the steel frame beam portion 15 extends from the inside (for example, the central portion) of the steel pipe portion 10 in four directions, up, down, left, and right, and is arranged in a substantially cross shape in a plan view.

As shown in FIGS. 3 and 4, the column portion 16 is made of H-shaped steel, and is welded in a posture extending upward with respect to the intersection of the steel beam portion 15 located inside the steel pipe portion 10. It is joined.

Inside the steel pipe portion 10, the intersecting position of the steel frame beam portion 15 and the joining position of the column portion 16 with respect to the steel frame beam portion 15 are generally set to the center position of the steel pipe portion 10 as shown in FIG. However, as shown in FIG. 5, the arrangement can be biased toward the edge instead of the center position. If the pillar portion 16 is arranged so as to be biased toward the end in this way, when the pile cap 50 (foundation footing F) is arranged close to the outer wall 60 (see FIG. 1) such as a retaining wall, the outer wall is arranged. The pillar portion 16 can be arranged as close to 60 as possible.

Further, the steel pipe portion 10 can be configured to have a circular cross section as shown in FIGS. 4 and 5, but is configured to have a rectangular (for example, square) cross section as shown in FIGS. 6 and 7. Alternatively, it can be configured to have a semi-cylindrical cross section as shown in FIG. Further, even when the steel pipe portion 10 having such a rectangular cross section or a semi-cylindrical cross section is used, as shown in FIGS. 6 and 8, the joint position of the column portion 16 with respect to the steel frame beam portion 15 is biased to the end as much as possible. Can be placed. Further, as shown in FIG. 7, if the joint position of the column portion 16 with respect to the steel frame beam portion 15 is biased to the corner portion of the steel pipe portion 10 having a rectangular cross section, the pile cap 50 is arranged with respect to the corner portion of the outer wall. When the (foundation footing F) is arranged close to each other, the pillar portion 16 can be arranged at a position as close as possible to the corner portion of the outer wall.

In the foundation structure of the building in the present embodiment, as shown in FIGS. 1 and 2, the pile cap is used even when the vertical width of the clearance formed between the ground surface 1a and the foundation beam H changes. The foundation footing F can be easily constructed by using a plurality of different length pile caps 50A to 50F having different lengths of the steel pipe portions 10 as the 50. Hereinafter, the detailed configuration of the first embodiment shown in FIG. 1 and the detailed configuration of the second embodiment shown in FIG. 2 will be described in order.

[First Embodiment]
In the foundation structure of the first embodiment shown in FIG. 1, a plurality of different length pile caps 50A, 50B, 50C having different lengths of the steel pipe portions 10 are arranged with respect to the ground surface 1a leveled on the horizontal plane. The plurality of different-sized pile caps 50A, 50B, and 50C are a plurality of upper-end different-level pile caps having different levels of the upper end surfaces of the steel pipe portion 10.
Then, the levels of the steel beam portions 15 joined to the upper end portions 10a of the steel pipe portions 10 of the plurality of different-sized pile caps 50A, 50B, and 50C are different, and the foundation beam H is different depending on each of the steel beam portions 15. Will be configured in steps. The clearance formed between the ground surface 1a and the foundation beam H is used as an underfloor space through which water passes in order to prevent inundation on the floor on the foundation beam H in the event of a flood. This clearance may be used for another purpose or backfilled with improved soil or the like.

In these plurality of different-sized pile caps 50A, 50B, 50C, the embedding length of the pile head 3a with respect to the steel pipe portion 10 is set to be substantially the same. As a result, for example, the pile head 3a is formed between the ground surface 1a leveled on the horizontal plane and the foundation beam H arranged in a stepped manner, while eliminating the need for adjusting or lengthening the embedding length. It is possible to construct a plurality of different-sized pile caps 50A, 50B, 50C corresponding to the change in the vertical width of the clearance.

Further, in a plurality of upper end different level pile caps 50A and 50B adjacent to each other, the beam member 5 of the foundation beam H connected to the steel frame beam portion 15 of the upper end high level pile cap 50A having a high level of the upper end surface of the steel pipe portion 10 , The level of the upper end surface of the steel pipe portion 10 is lower than that of the upper end high level pile cap 50A. The steel beam portion 17 joined to the column portion 16 installed in the upper end low level pile cap 50B is connected via the joint portion 6. Be connected. That is, the foundation beam H constituting the steel frame beam portion 15 penetrating the steel pipe portion 10 of the upper end high level pile cap 50A is joined to the column portion 16 installed in the upper end low level pile cap 50B.

A reinforcing member 20 is interposed between the steel beam portion 17 constituting the foundation beam H and the upper end surface of the steel pipe portion 10 of the upper end low level pile cap 50B in a form of filling a gap. As a result, the steel beam portion 17 joined to the column portion 16 is stably and firmly supported by the column portion 16 on the upper end low level pile cap 50B side and the reinforcing member 20. As for the shape of the reinforcing member 20, for example, a T-shaped or H-shaped steel material can be used in a plan view. Further, the steel beam portion 17 made of the H-shaped steel is provided with a vertical stiffener 21 for preventing buckling of the web due to the force received from the reinforcing member 20.

[Second Embodiment]
In the foundation structure of the second embodiment shown in FIG. 2, for example, a plurality of different length pile caps 50D, 50E, in which the lengths of the steel pipe portions 10 are different from each other with respect to the undulating ground surface 1a by omitting the leveling work, 50F is arranged. The plurality of different-sized pile caps 50D, 50E, and 50F have a plurality of lengths of the steel pipe portion 10 set according to the undulations of the ground surface 1a so that the levels of the upper end surfaces of the steel pipe portion 10 are substantially the same. It is said to be the same level pile cap at the upper end of.
Then, the levels of the steel beam portions 15 joined to the upper end portions 10a of the steel pipe portions 10 of the plurality of different-sized pile caps 50D, 50E, and 50F are substantially the same, and the steel beam portions 15 are connected to each other. In the horizontal direction, a foundation beam H without a step is constructed. The clearance formed between the ground surface 1a and the foundation beam H is used as an underfloor space through which water passes in order to prevent inundation on the floor on the foundation beam H in the event of a flood. This clearance may be used for another purpose or backfilled with improved soil or the like.

In these plurality of different-sized pile caps 50D, 50E, 50F, the embedding length of the pile head 3a with respect to the steel pipe portion 10 is set to be substantially the same. As a result, for example, the pile head 3a is formed between the undulating ground surface 1a and the foundation beam H having no step in the horizontal direction, without the need for adjusting or lengthening the embedding length. It is possible to construct a plurality of different-sized pile caps 50D, 50E, 50F corresponding to changes in the vertical width of the clearance.

[Another Embodiment]
Other embodiments of the present invention will be described. The configurations of the respective embodiments described below are not limited to being applied independently, but can also be applied in combination with the configurations of other embodiments.

(1) In the above embodiment, a plurality of different-sized pile caps 50A, 50B, 50 are arranged on the ground surface 1a leveled with a horizontal plane to form the foundation beam H in a stepped manner, or a plurality of pile caps 50A are arranged on the undulating ground surface 1a. The different-sized pile caps 50D, 50E, and 50F were arranged to form the foundation beam H as having no steps in the horizontal direction. For example, a plurality of different-sized pile caps were arranged on the undulating ground surface to form the foundation beam. It may be configured in steps.

(2) In the above embodiment, in the plurality of different length pile caps 50A to 50F, the embedding length of the pile head 3a with respect to the steel pipe portion 10 is set to be substantially the same, but the embedding length may be different. ..

1 Ground 1a Ground surface 3 Pile 3a Pile head 10 Steel pipe part 10a Upper end part 15 Steel beam part 16 Pillar part 17 Steel beam part 18 Concrete 20 Reinforcing member 50 Pile cap (different scale pile cap)
50 Upper end different level pile cap 50A Upper upper high level pile cap (Upper upper end different level pile cap)
50B Top low level pile cap (Top different level pile cap)
50C different scale pile cap (upper end different level pile cap)
50D different length pile cap (top end same level pile cap)
50E different length pile cap (upper end same level pile cap)
50F different length pile cap (upper end same level pile cap)
F Foundation footing H Foundation beam

Claims (5)

It is the foundation structure of a building with foundation footing installed on the pile head of a pile buried in the ground.
A steel pipe portion in which the foundation footing is erected on the ground surface so as to cover the pile head and is filled with concrete, and a pillar portion built above the pile head are installed in the steel pipe portion. It is composed of a pile cap having a steel beam part that is through-joined to the upper end part.
As the pile cap, a foundation structure of a building provided with a plurality of different length pile caps having different lengths of the steel pipe portions. As the plurality of different-sized pile caps, a plurality of pile caps having the same level at the upper end are provided, in which the length of the steel pipe portion is set according to the undulations of the ground surface so that the levels of the upper end surfaces of the steel pipe portion are substantially the same. The basic structure of the building according to claim 1. The basic structure of a building according to claim 1 or 2, wherein the plurality of different-sized pile caps include a plurality of upper-end different-level pile caps having different levels of the upper end surfaces of the steel pipe portion. In the plurality of upper end different level pile caps adjacent to each other, the foundation beam composed of the steel beam portion of the upper end high level pile cap having a high level of the upper end surface of the steel pipe portion is the steel pipe more than the upper end high level pile cap. The level of the upper end surface of the part is low, and it is joined to the pillar part installed in the upper end low level pile cap, and the foundation beam joined to the pillar part and the upper end surface of the steel pipe part of the upper end low level pile cap. The basic structure of a building according to claim 3, wherein a reinforcing member is interposed between the foundation structures. The basic structure of a building according to any one of claims 1 to 4, wherein the embedded lengths of the pile heads with respect to the steel pipe portions are set to be substantially the same in the plurality of different-sized pile caps.

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