JP3622173B2 - Concrete pile construction method using high strength strands - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a method for constructing a concrete pile using a high-strength stranded wire by placing a reinforcing bar in advance when placing a cast-in-place pile.
[0002]
[Prior art]
In-situ pile formation is a method of constructing a concrete pile by placing a plurality of reinforcing bars inside the excavated pile hole and placing concrete.
However, when there is little upper space on the cast-in-place pile construction site, and when working in a confined place, the construction of reinforcing bars and the installation of band reinforcements must be done in a limited space. There was a problem that not only the work efficiency was bad, but also the quality was adversely affected.
[0003]
In order to solve this problem, there is a concrete pile construction method using high-strength strands, but the following problems occur.
(1) Method of inserting wires from high strength into pile holes High strength strands have greater flexibility than different diameter rebars, but when inserting wires from high strength into pile holes in narrow spaces, In order to insert with a small curvature, a large force is required, work time is required, and labor and skill are required for the work.
(2) Ensuring verticality and linearity of high-strength strands In the construction method of concrete piles using high-strength strands, steel pipes are inserted over the entire length of the pile hole as a method of maintaining the straightness of strands with high strength. However, the verticality is secured by fixing the upper and lower ends thereof.
However, this method is costly because it uses a steel pipe, and it is uneconomical because steel materials exceeding the amount of steel materials required for design must be arranged.
(3) Arrangement of shear reinforcement bars When steel strips are used instead of steel pipes, high strength strands are flexible, and conventionally used to arrange shear reinforcement bars such as belt reinforcements. Compared to high-strength reinforcing bars such as different diameter steel bars, its workability is poor, and it takes time and labor.
[0004]
[Problems to be solved by the invention]
The present invention was made in order to solve the above-mentioned conventional problems, and a concrete pile construction method using a high-strength stranded wire capable of building an economical cast-in-place pile with good workability by a simple method. The purpose is to provide.
[0005]
[Means for Solving the Problems]
The present invention is a method of constructing a concrete pile by hanging a plurality of high-strength wires inside an excavated pile hole, and constraining a group of wires and their tips from high-strength The fixing plate is suspended inside the pile hole, and the fixing plate is pushed down by a tremely pipe to ensure the verticality and linearity of the line from high strength, and then the concrete is placed and the high strength is applied. It is a concrete pile construction method using wire.
[0006]
DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiment 1
Hereinafter, an example of an embodiment of the present invention will be described with reference to the drawings.
[0007]
<A> Overall Configuration FIG. 1 is a perspective view showing a main part of a concrete pile construction method using a high-strength strand according to the present invention.
The wire 2 is inserted from the high strength through the insertion hole 1a provided in the fixing plate 1, and the fixing body 3 is fixed to the lower end portion of the wire 2 from the high strength.
After inserting the high-strength strands 2 into all the insertion holes 1a, the fixing plate 1 is pushed down by the treme tube 4 and is attached to the bottom of the pile hole. It is something that makes me nervous.
[0008]
<B> Fixing plate The fixing plate 1 is a plate made of, for example, a steel material, and has a shape and size that can be lowered in the pile hole.
Around the fixing plate 1, insertion holes 1 a through which the wires 2 are inserted with high strength are formed at a predetermined pitch.
Further, an engaging hole 1b for engaging the protruding portion 4a at the tip of the tremmy tube 4 with the fixing plate 1 is formed at the center of the fixing plate 1, and the fixing plate 1 is lowered. At this time, a large number of flow holes 1c are formed so as to allow sedimentation in water.
[0009]
<C> High-strength strands that are commonly used flexible high-strength strands 2; after high-strength strands 2 are placed on the bottom of the pile holes, they are cut to match the length of the concrete pile. It is.
[0010]
<D> The fixing body fixing body 3 is a fixing part for fixing the fixing plate 1 to the lower end of the wire 2 because of its high strength. For example, a wire clip or the like may be used.
[0011]
<E> Tremy tube A commonly used treme tube 4 for placing underwater concrete, and an engagement hole 1b provided with a protruding portion 4a for jointing the tremy tubes 4 and 4 in the fixing plate 1. It is used to be engaged with.
[0012]
<F> High-strength wire drawing device FIG. 2 is a side view showing an example of the overall configuration of the high-strength wire drawing device 5.
The high-strength strand pulling device 5 includes a work platform 5b supported on the ground by a leg portion 5a, a fixing bracket 5c installed on the work platform 5b, and also installed on the work platform 5b. It consists of a hydraulic jack 5d that grips and pushes down the tremy tube 4.
[0013]
[Action]
Below, the construction method of the concrete pile using a high strength strand is demonstrated.
[0014]
<A> Attaching the high-strength strands In FIG. 1, the high-strength strands 2 are brought in one by one, inserted through the insertion holes 1 a of the fixing plate 1, and the fixing body 3 is fixed to the tip portion.
(The fixing body 3 may be fixed together by inserting the wires 2 through the insertion holes 1a from all the high strengths.)
When inserting the high-strength strands 2 one by one, the high-strength strands 2 are inserted into the fixing bracket 5c installed on the work platform 5b at the same pitch as the insertion holes 1a of the fixing plate 1. It can be an efficient installation work. (Figure 2)
After all the high-strength wires 2 are inserted into the insertion holes 1a, the wires 2 are attached to the fixing plate 1 with the tips of the wires 2 having the same height.
[0015]
<B> High strength by tremy tube Pushing down the line 4 After engaging the projection 4a of the treme tube 4 with the engagement hole 1b of the fixing plate 1, the treme tube 4 is lowered, and all the high strength is obtained by its weight. The stranded wire 2 is simultaneously inserted into the pile hole.
At this time, since the fixing plate 1 has a large number of flow holes 1c, the fixing plate 1 can be easily lowered.
[0016]
<C> Arrangement of shear reinforcement bars Reinforcing bars 7 are used as shear reinforcement bars.
3 is a perspective view in which the band rebar 7 is connected by the connecting wire 8, FIG. 4 is a perspective view in which the band rebar 7 is attached to the high-strength strand 2 by an arbitrary method, and FIG. It is a side view which shows the state suspended along the pile hole bottom part.
Band rebar 7 is connected by connecting wire 8 (interval holding material) for each length of the interval arranged on line 2 because of high strength (Figs. 3 and 4), and is carried into the pile head, After lifting, it is suspended to the bottom of the pile hole, and the rebar 7 is disposed at a predetermined position. (Fig. 5)
[0017]
<D> Tension of the wire from high strength After the wire 2 reaches the bottom of the pile hole from the high strength, the wire 2 is tensioned from the high strength by the wire tensioning device 5 from the high strength shown in FIG.
The tension of the high-strength stranded wire 2 is performed using the tremy tube 4 as a reaction force by the extension of the hydraulic jack 5d.
That is, the high-strength strand 2 is restrained by the fixing body 3 and the fixing plate 1 attached to the tip thereof, and extends the hydraulic jack 5d installed on the work platform 5b via the tremy tube 4. As a result, the tremy tube 4 is tensioned as a reaction force.
The verticality and linearity are ensured by the tension of the wire 2 due to the high strength.
[0018]
<E> Placing the bottom concrete FIG. 6 is a perspective view showing a state where the concrete 6 is placed at the bottom of the pile hole.
By the above, after the line 2 is tensioned by high strength and its verticality and linearity are ensured, a certain amount of concrete 6 is placed at the bottom of the pile hole in that state.
The concrete 6 is placed on the fixing plate 1 through the engagement holes 1b and the numerous flow holes 1c.
The high-strength stranded wire 2 has a fixed amount of concrete 6 weight placed on the fixing plate 1 to prevent the fixing plate 1 from being lifted, and the tension state is maintained and the vertical strength of the high-strength stranded wire 2 is maintained. Linearity will be ensured.
[0019]
<F> Pulling up the tremy tube FIG. 7 is a perspective view showing a state in which the concrete 6 is placed while pulling up the tremy tube 4.
By placing concrete 6 at the bottom of the pile hole, the verticality and linearity of the wire 2 are secured with high strength, so the hydraulic jack 5d that restrains the top end of the tremy tube 4 is released, While pulling up 4, the concrete 6 is driven to a predetermined height.
[0020]
Second Embodiment of the Invention
Hereinafter, another embodiment of the present invention will be described.
[0021]
FIG. 8 is a side view showing another embodiment of the present invention.
In this embodiment, with the fixing plate 1 not suspended in the pile hole, the wires 2 are suspended one by one through the insertion hole 1a of the fixing plate 1 one by one inside the pile hole, After the wire 2 is suspended to the bottom of the hole, the fixing plate 1 is suspended to the bottom of the hole by lowering the tremy tube 4.
After the fixing plate 1 is suspended to the bottom of the hole, the description is omitted because it is the same as that of the first embodiment.
[0022]
【The invention's effect】
Since the present invention has been described above, the following effects can be obtained. <I> Work can be performed on the ground near the site, such as the installation of reinforcing bars.
<B> Since the equipment used for the work is small, it is possible to save space and to work in a narrow place.
<C> Assembling of the shear reinforcement becomes easy and the construction time can be greatly shortened.
<D> Material costs and construction costs can be reduced compared to conventional methods such as using steel pipes.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a main part of a concrete pile construction method using a high-strength strand according to the present invention.
FIG. 2 is a side view showing an example of the overall configuration of the high-strength wire tensioning device.
FIG. 3 is a perspective view in which band reinforcing bars are connected by a connecting line.
FIG. 4 is a perspective view in which a band rebar is attached to a high-strength stranded wire by an arbitrary method.
FIG. 5 is a side view showing a state in which a belt reinforcing bar is suspended along a line from a high strength to a pile hole bottom.
FIG. 6 is a perspective view showing a state in which concrete is placed at the bottom of a pile hole.
FIG. 7 is a perspective view showing a state in which concrete is placed while pulling up the tremy tube.
FIG. 8 is a side view showing another embodiment.

Claims (6)

A method of constructing a concrete pile by suspending a plurality of high-strength wires inside a drilled pile hole and placing concrete.
A high strength stranded wire group and a fixing plate that restrains its tip are suspended inside the pile hole.
By pushing down this fixing plate with a tremmy tube, the verticality and linearity of the line is secured from high strength,
After that, cast concrete.
Concrete pile construction method using high strength strands. The lower end of the tremy tube is attached to the fixing plate,
Grab the top,
By applying a pushing force to this gripping part,
Fixing plate and high strength to ensure the vertical and linearity of the line,
The construction method of the concrete pile using the high strength strand wire of Claim 1. By pushing down the fixing plate with a tremmy tube, the vertical and linearity of the line is secured from high strength.
After that, cast concrete,
After the weight of concrete exceeds a certain amount on the fixing plate,
While removing the trememy tube from the fixing plate and pulling it up, concrete is continuously placed.
The construction method of the concrete pile using the high strength strand wire of Claim 1. Attach all high strength strands to the fixing plate at once,
After that, the fixing plate is suspended in the pile hole.
The construction method of the concrete pile using the high strength strand wire of Claim 1. With the fixing plate not suspended, suspend high strength strands one by one inside the pile hole through the plate insertion hole,
After suspending all high strength strands to the bottom of the hole,
Hang the fixing plate to the bottom of the hole.
The construction method of the concrete pile using the high strength strand wire of Claim 1. After securing the verticality and linearity of the line group from the high strength by pushing down the fixing plate with the tremy tube,
Inside the space surrounded by the wire group with high strength,
Suspend a group of reinforcing bars that maintain a certain interval,
After that, cast concrete.
The construction method of the concrete pile using the high strength strand wire of Claim 1.

Images