JP6104444B1 - Concrete pile and concrete pile construction method - Google Patents

Abstract

[Problem] To provide a concrete pile that is convenient for stacking concrete piles that are manufactured in a factory and carried to the site, and that can prevent the misalignment and easily maintain the perpendicularity when penetrating into a borehole in ground improvement work. . A cross-sectional shape of a concrete pile 11 is an oval shape in which a pair of opposing arcuate shapes are cut out from a true circle having a predetermined diameter. The length of the bow string is 20-40% of the diameter. As the material of the concrete pile 11, for example, concrete related to a normal blend using ordinary Portland cement is used. The concrete pile 11 is inserted and embedded in a perfect circular boring hole formed in the ground. [Selection] Figure 1

Description

  The present invention relates to a concrete pile made of a so-called oval cross-section concrete cylinder used for improving the ground of a building such as a house, and a concrete pile construction method.

When building a house, if the ground is soft and there is a risk of land subsidence, a concrete pile construction method is known in which a concrete pile manufactured by a factory is driven.
Conventionally, as described in paragraph 0002 of Patent Document 1, a straight pile having a constant outer diameter is known as a concrete pile. The cross section of this concrete pile is a perfect circle shape. This concrete pile is used as a foundation pile to support the building by driving the pile deep into the ground when building the building on the soft ground.
The piles of the concrete pile construction method are classified according to the manufacturing method. The first is centrifugal molding in which a centrifugal force is used and a material is pressed against a mold. Second, it is precast / prestressed by pulling PC steel to give the product pile a compressive force. Third, it is a normal reinforced concrete product, precast, manufactured in a factory.

JP 2011-17248 A

The concrete pile construction method is fundamentally stable in quality compared to other construction methods, is not expensive, and is an excellent construction method when the application conditions are in place. However, concrete pile products, which are ground reinforcement materials used in the construction method, have the following problems.
When manufacturing by centrifugal molding, special equipment is required, and it is basically a large-diameter pile, and there are few for residential use. Moreover, since it is a concrete pile having a perfectly circular cross section, when it coincides with the diameter of the preceding hole, the air pressure increases in the hole at the time of penetration, and the inner wall of the hole may be destroyed.
Precast and prestressed product piles require less rebar and lower costs, but require specialized equipment. Moreover, since PC steel material is pulled, it is somewhat dangerous during production. Furthermore, the curing period is long and it is not suitable for mass production.
The precast product can be manufactured in a general concrete product factory, but since the ready-mixed concrete is poured into a mold and molded, the shape is limited.
From the above, in order to spread the concrete pile method with excellent cost and quality, a method using precast concrete products is required.
However, in this case, it is necessary to pour concrete into the formwork in the manufacture of concrete piles, and a concrete pouring surface is always required, and as a result, the cross-section of the pile is generally a polygon (such as a regular hexagon). There was a problem of becoming.
For concrete piles with a polygonal cross section, the leading hole by the auger drill has a perfect circle shape, so there is always a gap at the time of penetration, and the concrete pile is misaligned, or the perpendicularity of the pile (direct to the ground surface) The angle) could not be maintained, the quality of the construction method became unstable, and there was a risk of poor construction.

  As a result of extensive research, the inventor has found that all the above problems can be solved by changing the cross section of the concrete pile from a polygonal shape to an oval shape, thus completing the present invention.

  An object of the present invention is to provide a factory-made concrete pile that can be easily stored and transported in a stacked manner and can be easily operated on site, and a construction method therefor.

The invention according to claim 1 is a concrete pile that is manufactured in a factory and is embedded in the ground and becomes a foundation pile in the ground improvement work of a building such as a house, and is drilled at a predetermined position on the ground. It is a concrete pile made up of a concrete cylinder of an oval shape whose cross section is embedded in a boring hole whose cross section is a perfect circle and whose cross section is cut out from a pair of opposed arcs from a true circle.
In other words, the cross-sectional shape of the concrete pile is a true circular cross section, and a pair of arcuate shapes are removed from the true circle at a line-symmetrical position (position separated by 180 °) around the diameter in the circumferential direction. Oval shape. Therefore, this cross section is drawn by a continuous line of a pair of opposing strings (straight line) and a pair of opposing curves (an arc that is part of a perfect circle).
Therefore, the concrete column pile has a pair of convex curved surfaces extending in the length direction and a pair of flat surfaces (notch surfaces) extending in the length direction, and the pile side surface (outer peripheral surface) is formed. . Moreover, the plane and bottom face which are both ends of a concrete pile can be made into the same shape as the cross section. In addition, the rebar inside a concrete pile will be arrange | positioned according to the use (strength).
Furthermore, the length of the chord on the pair of notched surfaces (flat surfaces) is set so that the aspect ratio in the cross section does not become extremely large. For example, in the case of a concrete pile with a diameter of 200 mm, it can be about 50 to 75 mm. This is because the strength against compression and the strength against bending as a concrete pile are ensured and the following effects are exhibited. In addition, the diameter of a concrete pile shall be 200-600 mm.

Invention of Claim 2 is a concrete pile of Claim 1 in which the lower end part of the said concrete pile was formed in the taper shape.
The concrete pile is formed in a predetermined length, and one end portion in the length direction has a substantially truncated cone shape. The length of the truncated cone portion is arbitrary, and the angle of the tapered portion is also arbitrary. Even in the tapered lower end portion, it is composed of a pair of opposed flat portions and a pair of curved portions (not a complete truncated cone shape). The tapered portion facilitates press-fitting into the bottom surface of the boring hole.

The invention according to claim 3 is a concrete pile construction method in which a concrete pile is embedded in the ground and used as a foundation pile by ground improvement work for a building such as a house, and is buried at a predetermined position on the ground. A concrete pile construction method in which a perfectly round boring hole having substantially the same diameter as a concrete pile is drilled, and a concrete pile having an oval cross section is inserted into the bore hole. .
In this case, in the ground improvement, a plurality of concrete piles are buried vertically, but when these piles are arranged at a predetermined position within a predetermined area plane, the direction of the notch surface of each concrete pile is randomly selected. Can be arranged. With this random arrangement, stable proof stress can be exhibited even when any lateral external force is applied to the buried concrete pile group.
According to this construction method, the concrete pile that penetrates into place at the ground improvement work of a building such as a residential house has an oval cross section, so that the circular arc surface serves as a guide for the hole inner wall during the penetration. Therefore, misalignment can be prevented, squareness can be easily maintained, and the penetration operation can be smoothly performed by bleeding air from the arcuate gap.
In other words, the effects of the pair of flat cut-out surfaces, which are surfaces extending in the length direction of the concrete pile, are as follows.
Stable stacking with a pair of flat surfaces is possible during transportation and storage from the factory to the site.
In addition, the arc-shaped surface has a very small misalignment when penetrating into the boring hole as compared with a polygonal column pile, and it is easy to ensure a perpendicular angle with respect to the ground surface.
Furthermore, in comparison with a concrete pile with a true circular cross section, when the concrete pile with an oval cross section is inserted into the boring hole, the air in the hole pressed by the penetration (down) of the pile is reduced to the cut surface (a pair of The flat notch surface) and the inner wall of the boring hole can be easily penetrated.
Moreover, it is as follows about the manufacturing method of this concrete pile.
Concrete is poured into the inside of the formwork in which the reinforcing bar is arranged from the injection part (notch part) on the upper surface of the formwork which is opened upward and the pile is laid sideways. For example, ordinary Portland cement and aggregate mixed with water according to a predetermined composition are poured.
Demolding is by lifting the concrete pile, which is the product, upward after opening the side of the mold to the left and right.

  According to this invention, it is convenient to store and transport the piles of concrete piles manufactured at a factory and carried into the site. This is because stable stacking can be achieved by contacting flat cut-out surfaces. Also, when penetrating into a borehole (excavation hole) at the ground improvement work site, the arc surface serves as a guide, making it easy to prevent misalignment and maintaining a squareness with respect to the ground surface. Can be done. Moreover, since the air in the hole escapes from the notch, the penetration operation can be performed accurately and smoothly, leading to a reduction in construction time.

(A) It is a perspective view which shows the state which faced the flat surface of the concrete pile which concerns on Example 1 of this invention upward. (B) It is a perspective view which shows the state which faced the curved surface of the concrete pile similarly concerning Example 1 upward. (A) It is a front view of the concrete pile concerning Example 1 of this invention. (B) It is a left view of the concrete pile which concerns on Example 1 of this invention. (A) It is an AA line sectional view of a concrete pile concerning Example 1 of this invention. (B) It is a top view of the concrete pile concerning Example 1 of this invention. It is a perspective view which shows the relationship with the concrete foundation in the state which constructed the concrete pile concerning Example 1 of this invention. (A) It is a perspective view which shows the state which faced up the flat surface of the concrete pile which concerns on Example 2 of this invention. (B) It is a perspective view which shows the state which faced the curved surface of the concrete pile similarly concerning Example 2 upward. It is a front view of the concrete pile concerning Example 2 of this invention. It is a top view of the concrete pile concerning Example 2 of this invention. (A) It is a left view of the concrete pile which concerns on Example 2 of this invention. (B) It is a right view of the concrete pile which concerns on Example 2 similarly.

  Hereinafter, an example of a concrete pile according to the present invention will be described in detail.

1-4 shows the concrete pile manufactured using the formwork in the factory based on Example 1. FIG. In this case, the concrete pile material may be, for example, concrete according to a normal composition using ordinary Portland cement. The concrete includes a reinforcing bar, but the present invention is established even when the concrete is not included. For example, the outer surface shape of a prestressed concrete pile can have the following characteristics.
As shown in FIGS. 1-3, the concrete pile 11 which concerns on this Example is a concrete pile used as a foundation pile for the ground improvement construction of structures, such as a house.
The concrete pile 11 has a predetermined length, and is formed of a substantially cylindrical body having the same cross-sectional shape in the length direction. The cross-sectional shape of the concrete pile 11 is an oval shape in which a pair of opposing arcuate shapes are cut out from a true circle having a predetermined diameter. The length of the bow string is 20-40% of the diameter. This is to prevent a significant decrease in compressive strength due to a decrease in the section modulus of the pile.
That is, as shown in FIGS. 2 (B) and 3 (A), this oval cross section corresponds to a pair of opposing, perfect circular curved lines 12A, 12B, and a pair of opposing, perfect circular strings. The shape is surrounded by straight lines 13A and 13B. Therefore, the side surface of the concrete pile 11 is composed of a pair of opposing convex curved surface portions 22A and 22B and a pair of opposing flat surface portions 23A and 23B. The flat surface portions 23A and 23B are constituted by rectangular surfaces having the same shape and the same area, and these form parallel surfaces. Similarly, the pair of convex curved surface portions 22A and 22B function as guide surfaces that are in close contact with the inner wall surface of the hole when penetrating into a preceding hole (auger hole) described later.
Both end surfaces in the length direction of the concrete pile 11 made of a concrete cylinder are formed in an oval shape as described above, and these both end surfaces are formed as surfaces orthogonal to the axis in the length direction of the pile. Has been.

Furthermore, this concrete pile 11 is used for the ground improvement work of a house, but in this case, it has a diameter of substantially the same diameter as a perfect circular boring hole formed in the ground. In other words, a hole having substantially the same diameter as the diameter of the concrete pile 11 (diameter when the cross section is a perfect circle) is bored to the same depth as the length of the pile by an auger drill or the like.
With reference to FIG. 4, the improvement work when the ground of the building is soft will be described. That is, using a ground improvement construction machine (pile driver), a plurality of concrete piles 11 are arranged in a well-balanced manner on the ground immediately below a predetermined concrete foundation 15 (rise or slab part of a residential foundation) for soft ground. And bury it. First, a drilling machine with an auger drill of a pile driver drills in the corresponding position of the ground, and drills a borehole (for example, a circular hole with a diameter of 220 mm) up to several layers above the support layer (for example, rock) in the ground. . Next, the oval concrete pile 11 is pulled up by the pile driving machine and the upper end of the pile is further drawn into the press-fitting cap of the pile driving machine. The pile driving machine moves to the boring hole drilled in advance with the concrete pile 11 being lifted, and drops the concrete pile 11 having a diameter of 200 mm into the hole from its lower end. At this time, the oval pile 11 having substantially the same diameter is dropped into the hole of the perfect circle, and the flat side surface cut out at that time becomes a mark, and the misalignment is prevented. And the perpendicularity (perpendicular to a horizontal surface) of the concrete pile 11 is taken out, and penetration is performed by a pile driving machine. The flat side portion is also used as a reference for setting this squareness. In addition, the pile driver pushes the pile to the design depth (depth) by issuing a predetermined pressure input during penetration. This completes the construction. In addition, this is performed when the pile head process is required. In addition, since a pair of convex curved surfaces and a pair of flat surfaces are formed on the side of the pile at the time of penetration, a gap is formed between the flat surface and the hole inner wall, and air is discharged from the gap. The projecting surface of the pile can be smoothly (smoothly) performed in a state where the convex curved surface becomes a guide surface, there is no misalignment, and a perpendicularity to the ground surface is easily secured.
The above operation is repeated at other points, and the construction of the concrete foundation 15 is performed when all pile driving is completed. That is, after a plurality of pile driving is completed, the upper end surface is covered with gravel by a predetermined depth, concrete is poured thereon, and the concrete foundation 15 is further installed. In addition, although the concrete foundation 15 illustrated in the case of the cloth foundation, in the case of a solid foundation, a pile can be arrange | positioned by balancing not only on the standup | rising part of a foundation but the predetermined position of a slab part planarly.

Next, about the manufacturing method of the concrete pile which consists of the concrete cylinder made into the oval shape which the cross-sectional shape removes a pair of arch form from this perfect circle in the line symmetrical position centering on the diameter in the circumference direction of a perfect circle Is as follows.
The concrete is poured into the inside of the formwork in which the reinforcing bar is arranged from the injection part (notch part) on the upper surface with respect to the formwork (planar shape is rectangular) with the pile opened to the side. For example, ordinary Portland cement and aggregate mixed with water are poured into a mold at a predetermined blending ratio. In this case, the upper and lower surfaces of the mold are horizontal, and the side surfaces are curved surfaces.
The demolding frame after the elapse of a predetermined time can be easily performed by lifting the product upward after opening the side surface of the mold frame to the left and right.

As described above, in the concrete pile 11 according to the present invention, the effects obtained by the pair of flat cut surfaces, which are surfaces extending in the length direction, are as follows.
Stable stacking by a pair of flat surfaces (a part of the pile side surface) is possible. Conventional piles with a true circular cross-section require measures to prevent rotation even when they are stacked or installed on a single plane.
Further, compared to a polygonal pillar pile, there is little misalignment when penetrating into the borehole, and it is easy to ensure a squareness with respect to the ground surface when penetrating. A pair of flat cut-out surfaces are arranged at opposing positions and have a pair of convex curved surfaces, so that it is easy to set the pile axis at the center of the hole. At the same time, it is easy to secure and recognize the perpendicularity of the pile.
Furthermore, in comparison with a concrete pile having a true circular cross section, in the concrete pile 11 having an oval cross section, when the hole enters the boring hole, air is released from the cut surface (a pair of flat cutout surfaces) and the penetration is easy. Become.

5 to 8 show a concrete pile according to Embodiment 2 of the present invention.
This concrete pile 31 is used as a foundation pile in the ground improvement of a building such as a house as in the case of the first embodiment, and the cross section has a so-called cross-sectional oval shape in which a pair of opposing arcuate shapes are cut out from a perfect circle. Consists of concrete cylinders. The lower end 32 of the concrete pile 31 is formed in a tapered shape (substantially truncated cone shape).
In the ground improvement work, a round boring hole having a diameter substantially the same as the diameter of the concrete pile 31 is formed, and then the concrete pile 31 is dropped into the true round boring hole from the lower end 32 and penetrated to form a foundation pile. .

The concrete pile 31 is a so-called pen type and includes a main body portion 33 and a tip portion 32. That is, the concrete pile 31 is composed of a main body portion 33 that is an oval cylindrical body and a truncated cone-shaped tapered portion 32 that is integral with the main body portion 33 and has the same axis. The taper angle of the taper part 32 is arbitrary. Although the length is also arbitrary, it is considerably shorter than the length of the main body 33. The structure of the main body 33 is the same as that of the first embodiment, and is a substantially cylindrical body (bar-shaped body) having a cross-sectional oval shape and a predetermined length, and has a reinforcing bar inside. The side surfaces are formed with flat upper and lower surfaces, and a pair of curved surfaces connecting the upper and lower flat surfaces are curved with the same curvature as the side surfaces of the true cylinder. The flat surface is 33A, and the convex curved surface is 33B.
On the other hand, in the tapered portion 32 at the tip, a pair of inclined surfaces 32A that are cut flat are disposed and formed at opposing positions and a pair of curved surfaces 32B are opposed to each other. The flat surfaces 32A and 33A are continuously formed, and the curved surfaces 32B and 33B are also continuously formed.

  In the concrete pile 31 which concerns on Example 2 which concerns on the above structure, it is used as a foundation pile in ground improvement like the concrete pile of Example 1, but when it penetrates into a boring hole, it is a tip (it is suspended) Since the tapered portion 32 at the lower end is pointed with a small diameter on the lower side, the penetration becomes easier. Further, the effect of preventing misalignment and maintaining the squareness by the pair of flat portions on the side surfaces are the same as those in the first embodiment. The other operations and effects are substantially the same, and detailed description is omitted to avoid trouble.

  The concrete pile according to the present invention is useful as a foundation pile used for ground improvement work.

11 Concrete pile,
31 Concrete pile (pen type).

Claims (3)

A concrete pile that is manufactured at a factory and buried in the ground in a ground improvement work for a building such as a residential house.
A cross-section drilled at a predetermined position on the ground is embedded in a perfectly circular boring hole,
A concrete pile made up of a concrete cylinder of oval shape with a cross section cut out of a pair of opposing arches from a true circle.   The concrete pile according to claim 1, wherein a lower end portion of the concrete pile is formed in a tapered shape. A concrete pile construction method in which a concrete pile is buried in the ground in a ground improvement work of a building such as a residential house and used as a foundation pile,
Drill a round boring hole with the same diameter as the concrete pile to be buried at a predetermined position on the ground,
The construction method of the concrete pile which penetrates a concrete pile of the cross-sectional shape described in Claim 1 or Claim 2 in this boring hole.

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