JP2003253687A - Supporting structure for concrete foundation - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a high-quality supporting structure for a concrete foundation allowing easy designing, construction and the like. <P>SOLUTION: In this supporting structure S for the concrete foundation (a footing foundation 20) based on a pile (a cast-in-place concrete pile 10), the concrete foundation is formed of a bottom part 21 and a main body part 22 on it. A designing standard strength of concrete in the bottom part is greater than that of the main body part. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a support structure for concrete foundations by piles (hereinafter referred to as "support structure").

[0002]

2. Description of the Related Art Conventionally, various structures for supporting concrete foundations, which are footing foundations, by piles have been used. In such a support structure, the concrete design standard strength of the concrete foundation may be set to a value corresponding to the required standard of the superstructure because the concrete strength of the pile may be smaller than that of the concrete foundation. Generally, the concrete foundation had a structure of placing concrete of the same strength.

On the other hand, in recent years, there has been a tendency that the axial force of the column member increases with the increase in scale and height of the upper structure, and with the decrease in the cross-sectional area of the pile, it becomes Since the bearing capacity of the abutting part tends to increase, the abutting part with the pile is often required to have a strength higher than the design standard strength of concrete in the foundation structure that is normally required. There is.

[0004]

However, the concrete foundation is often a mass concrete that uses a large volume of concrete, and if the design standard strength of the concrete is increased, the temperature rise due to the heat of hydration of the concrete is caused. , The amount of heat stored will increase. Therefore, a temperature difference between the surface of the foundation and the interior occurs, and cracks are likely to occur due to restraint of shrinkage deformation during temperature drop of concrete, so design and construction become complicated to prevent it. There was the problem of being lost.

Even in the above-mentioned case, it is not always necessary to uniformly increase the design standard strength of the entire concrete foundation, and the use of concrete having a design standard strength higher than necessary increases the construction cost. There was also the problem of being lost.

The present invention has been made to solve the above-mentioned problems, and provides a high-quality concrete foundation support structure that enables easy design and construction. It is an object.

[0007]

In order to solve the above-mentioned problems, a support structure of the present invention is a support structure by a pile of a concrete foundation, the concrete foundation including a bottom portion and a main body portion above the bottom portion. It is characterized in that the design standard strength of the concrete in the bottom portion is larger than the design strength of the concrete in the main body portion.

In the present invention, the design standard strength of concrete at the bottom of the concrete foundation is set to be larger than the design standard strength of concrete at the main body. Here, only the design standard strength of concrete at the bottom of the concrete foundation is set as an appropriate design standard strength that can withstand the bearing pressure received from the pile head, and at least the design standard strength of concrete of the main body is required. It is possible to set the minimum design standard strength. Therefore, according to the present invention, after the supporting pressure received from the pile head is dispersed at the bottom of the concrete foundation having high strength, the supporting pressure can be transmitted to the main body portion, so that the concrete foundation can be transmitted. When building
Since it is not necessary to use concrete whose design standard strength is higher than necessary, it is possible to easily perform designing and construction, and to provide a high-quality support structure.

Further, the support structure of the present invention is a support structure of a concrete foundation by a pile, wherein the concrete foundation includes a main body portion and a pile contact surface vicinity region which is in the vicinity of a contact portion with the pile. It is characterized in that the design standard strength of concrete in the area near the pile contact surface is larger than the design standard strength of concrete in the main body.

In addition, the area near the pile contact surface is a columnar area whose diameter is expanded at an expansion angle of 45 degrees from the contact surface with the pile and whose surface similar to the contact surface is an upper surface. It is formed so as to include the ratio of the area of the upper surface and the area of the contact surface, between the design reference strength of concrete in the area near the pile contact surface and the design reference strength of concrete in the main body portion. It is preferable that it is formed to have a ratio or more.

Here, the contact surface with the pile refers to a portion where the tip end surface of the pillar head of the pile is in direct contact with the concrete foundation. Further, the diameter expansion angle does not strictly refer to 45 degrees, but includes a construction error of about ± 5 degrees. Further, the expanded diameter angle θ of the contact surface with the pile is a straight line L2 that connects the vertical line L1 in the pile axial direction and the outer edge portion of the upper surface 21b ′ and the outer edge portion of the contact surface 21a ′ in a side view. Of the angles formed by, the smaller angle (see FIG. 2).

According to the present invention, since concrete having a high design standard strength is used in the concrete foundation in the minimum necessary amount, it becomes possible to more efficiently design and construct.

Further, the support structure of the present invention may be a support structure of a pile of the concrete foundation, which supports the concrete foundation in a state of being placed on the pile.

Here, "mounting" refers to a state in which the concrete foundation is merely placed on the pile head when supporting the concrete foundation, and both edges are cut off. Means In addition, a concave portion is formed in the concrete foundation, and the concrete foundation is supported with the pile head of the pile inserted in the concave portion, and an uneven portion for transmitting a horizontal force between the concrete foundation and the pile is provided. This does not prevent the support form of placement.

In the support structure for the concrete foundation, if a core steel material is laid between the concrete foundation and the pile head, it occurs between the concrete foundation and the pile head. It can effectively resist the pulling force.

According to the present invention, a concrete foundation is
By supporting the concrete foundation and the pile on the pile head, even if horizontal force acts on the concrete foundation and the pile, the two do not restrain vertical movement, horizontal movement and rotation from each other. , It is possible to prevent excessive sectional force from occurring in the concrete foundation and piles,
Rationality of design and easiness of construction will be ensured.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION Regarding one embodiment of the present invention,
A detailed description will be given with reference to the drawings by taking as an example a support structure in which a footing foundation 20 (concrete foundation) is supported by cast-in-place concrete piles (hereinafter referred to as "cast-in-place pile 10"). In addition, in the description of each embodiment, the same components are denoted by the same reference numerals, and duplicate description will be omitted.

[First Embodiment] As shown in FIG. 1, a supporting structure S (first embodiment) of the present invention is a footing foundation 2
0 is supported by the cast-in-place pile 10 whose lower end reaches the support layer (not shown) of the ground G. The footing foundation 20 is composed of a bottom surface portion 21 that is a range of a predetermined height over the entire bottom surface and a body portion 22 that is the other area. As the concrete of the bottom surface portion 21 of the footing foundation 20, concrete having a design standard strength larger than that of the concrete of the main body portion 22 is used (for example, the design standard strength of each concrete is 36 N / mm ² and 27 N / mm). ² ). In this way, the fact that the concrete of the footing foundation 20 is struck by the bottom portion 21 and the body portion 22 reinforces the bearing stress acting on the bottom portion 21 of the footing foundation 20 and the pile head 12. The reason is that, in particular, the bottom surface portion 21 that is in direct contact with the pile head 12 having a small cross-sectional area.
In particular, concrete is used to increase the yield strength by using concrete with a large design standard strength.

According to the support structure S of the present invention, the design standard strength of concrete in the bottom portion 21 of the footing foundation 20 is set to be larger than the design standard strength of concrete in the main body portion 22. Then, the design standard strength of concrete on the bottom surface portion 21 of the footing foundation 20 is determined as an appropriate design standard strength that can withstand the bearing pressure received from the pile head 12, and the design standard strength of concrete of the main body portion 22 is required. The minimum design standard strength is

Therefore, according to the present invention, it is possible to disperse the bearing pressure received from the pile head 12 at the bottom portion 21 of the footing foundation 20 having high strength and then to transmit the bearing pressure 12 to the main body portion. Become. Therefore, because the footing foundation 20 does not use unnecessarily high-strength concrete, it is possible to maintain the footing foundation 20 in a high-quality structure free from cracks and the like, and facilitate design and construction. It becomes possible to do it.

[Second Embodiment] As shown in FIG. 2, in a supporting structure S '(second embodiment) of the present invention, a concrete foundation 20' is placed on a cast-in-place pile 10 'having a circular cross section. It is a support structure that supports in a state. Here, the footing foundation 20 'is formed from a pile contact surface vicinity region 21' which is in the vicinity of the contact surface 21a 'with the cast-in-place pile 10', and a body portion 22 'which is the other part. There is. The area 21 'near the pile contact surface is formed not in the entire bottom surface of the footing foundation 20' but in a predetermined range from the contact surface 21a 'with the pile head 12'. Then, as the concrete in the area 21 'near the pile contact surface in the footing foundation 20', concrete having a larger design standard strength than that of the main body 22 'is used (for example, the design standard strength of each concrete is 36N / mm ² and 27N / mm ^2).

The area 21 'near the pile contact surface is the pile head 1
It includes a circular upper surface 21b 'that is similar in shape to the contact surface 21a' and has a diameter expanded from the contact surface 21a 'of 2'at an expansion angle θ of 45 degrees. This circular upper surface 21b 'is
In a plan view, they are arranged concentrically with the contact surface 21a ′, and the pile contact surface vicinity region 21 ′ is the circular upper surface 21.
It is a region including b ′ (a cylindrical region in this embodiment).

The ratio of the area of the upper surface 21b 'and the area of the contact surface 21a' (= the cross-sectional area of the pile head) is such that the concrete design standard strength and the main body portion in the area 21 'near the pile contact surface are equal to each other. 22 (a) so that the ratio is greater than or equal to the design standard strength of concrete in 22 ′ [(area of upper surface 21b ′ / area of contact surface 21a ′) ≧ (design standard strength of concrete in area 21 ′ near pile contact surface) / (Design standard strength of concrete in main body portion 22 ')] is formed. The applicant has found that it is preferable to set the diameter expansion angle θ to be approximately 45 degrees.

Next, the function and effect of the support structure S'will be described. When an earthquake occurs, the cast-in-place pile 10 'integrated with the ground G vibrates in response to the vibration of the ground G, and the footing foundation 20' also vibrates via the cast-in-place concrete pile 10 '.

At this time, since the footing foundation 20 'and the cast-in-place concrete pile 10' have different natural vibration periods, they try to vibrate independently.
Then, a frictional force is generated between the footing foundation 20 'and the pile head 12', so that they both receive horizontal force. However, the support structure S ′ of the present invention is not a structure in which the footing foundation and the cast-in-place pile constrain vertical movement, horizontal movement and rotation with respect to each other, unlike the conventional support structure.
Since the footing foundation 20 'is placed on the cast-in-place pile 10' and bears the load, an excessive sectional force is generated in the footing foundation 20 'and the cast-in-place pile 10'. Can be prevented.

Further, the design standard strength of concrete in the area 21 'near the pile contact surface of the footing foundation 20' is
It is set to be larger than the design standard strength of concrete in the main body 22 '. Therefore, according to the support structure S ′ of the present embodiment, it is possible to use the concrete having a high design standard strength only in a narrower area by considering the degree of spread of the bearing pressure to the footing foundation 20 ′. Therefore, the function and effect of the support structure S according to the first embodiment can be effectively exhibited.

The present invention has been described above by way of an example of a preferred embodiment. However, the present invention is not limited to the above-described embodiment, and the respective constituent elements can be appropriately modified in design without departing from the spirit of the present invention. In particular,
Needless to say, the size, material, arrangement, etc. of each element are appropriately determined according to the construction target. Also,
As for the piles, various types of piles such as cast-in-place concrete piles, steel pipe hollow piles in which the pile head is filled with concrete, and ready-made concrete piles can be used, and the concrete foundation is placed on the piles. It is not limited to the support structure supported by.

[0028]

According to the present invention, it is possible to easily carry out designing, construction, etc., and to provide a high-quality support structure.

[Brief description of drawings]

FIG. 1 is a support structure for a concrete foundation of the present invention (first
(Embodiment) FIG.

FIG. 2 is a support structure for a concrete foundation of the present invention (second
(Embodiment) FIG.

[Explanation of symbols]

S, S'Support structure (support structure for concrete foundation) 10, 20 'Cast-in-place concrete pile 12, 12' Pile head 20, 20 'Footing foundation (concrete foundation) 21 Bottom part 21' Near the pile contact surface Area 21a 'Abutment surface 21b' Upper surfaces 22, 22 'Body portion θ Expanding angle

   ─────────────────────────────────────────────────── ─── Continued front page    (72) Inventor Shinichiro Kawamoto             1-25-1 Nishi-Shinjuku, Shinjuku-ku, Tokyo Taisei             Construction Co., Ltd. (72) Inventor Toshiyuki Hayashi             1-25-1 Nishi-Shinjuku, Shinjuku-ku, Tokyo Taisei             Construction Co., Ltd. F-term (reference) 2D046 CA03

Claims (4)

[Claims] 1. A support structure for a concrete foundation by piles, wherein the concrete foundation is formed of a bottom portion and a main body portion above the bottom portion, and the design standard strength of concrete at the bottom portion is the main body portion. Support structure for concrete foundations, which is characterized by being larger than the design strength of concrete in Japan. 2. A support structure of a concrete foundation by a pile, wherein the concrete foundation is formed of a main body portion and a pile contact surface vicinity region which is near a contact surface with the pile, A support structure for a concrete foundation, characterized in that a design standard strength of concrete in a region near a pile contact surface is larger than a design standard strength of concrete in the main body portion. 3. The column contact area near the pile is a columnar area having a diameter of 45 degrees from the contact surface with the pile and having a surface similar to the contact surface as an upper surface. It is formed to include, the ratio of the area of the upper surface and the area of the contact surface, between the design reference strength of concrete in the area near the pile contact surface and the design reference strength of concrete in the main body The support structure for a concrete foundation according to claim 2, wherein the support structure is formed to have a ratio not less than the ratio. 4. The support structure of the concrete foundation by a pile is a support structure for supporting the concrete foundation in a state of being placed on the pile. A concrete foundation supporting structure according to item 1.