KR20110130239A - Field infused post and constructing method thereof - Google Patents

Abstract

PURPOSE: A synthetic cast-in-place pile and a construction method thereof are provided to satisfy the intensity of a pile and to minimize the volume of the pile without a reinforcing steel bar. CONSTITUTION: A synthetic cast-in-place pile comprises a casing(10) and a filler(20). The casing is inserted in a pile hole which is formed in underground. The filler is piled in field inside casing. The casing comprises a casing main body(11), a first reinforcing rib(12), a second reinforcing rib(13), and multiple filling holes(12a,13a). A hollow is formed inside of the casing main body. The first reinforcing rib is formed in the inner circumference of the casing main body in a vertical direction and is separated between the reciprocity according to the columnar direction at a regular interval. The filling hole is respectively formed on the first reinforcing rib and the second reinforcing rib.

Description

FIELD INFUSED POST AND CONSTRUCTING METHOD THEREOF}

The present invention relates to a cast-in-place pile, and more particularly, to a composite cast-in-place pile and the construction method that can satisfy the strength of the pile without using or minimizing the reinforcement through the improvement of the casing to prevent the collapse of the pile hole in the ground It is about.

When constructing a structure such as a building on the ground, a plurality of piles are installed on the ground so as to support the structure.

There are many kinds of such piles, but in general, cast-in-place piles are widely used.

The site-pouring pile is formed by first drilling a ground downward to form a structure to form a drill hole, and inserting a support into the drill hole, and then filling a material such as a stress material or a compress in the drill hole into which the support is inserted. For example, it is installed by filling mortar or concrete and curing the filling. Reinforcing bar network units are generally used as the support.

The reinforcing bar network unit inserts a plurality of reinforcing bars at the same depth into the drilling hole and arranges the reinforcing bars to be equally spaced in the circumferential direction of the drilling hole, so that the arranged rebars do not move relative to each other. In order to achieve this, that is, the rebars are manufactured by fixing the reinforcing bars to each other with fixing bars (wires, etc.) in order to maintain equal states at equal intervals in the circumferential direction of the drilling holes and to have the same depth inserted into the drilling holes.

In addition, the casing is inserted at the same time as the drilling hole so that the drilling hole does not collapse when the drilling hole is drilled.

The casing is inserted to prevent the collapse of the drilling hole, but does not draw out of the drilling hole when filling the filler, and serves as a formwork for filling the filler.

However, the site casting pile according to the prior art has the following problems.

When placing the filler inside the pile ball, insert the casing to prevent the pile ball from collapsing.In particular, the casing must be used in the soft ground or the sea because the pile ball collapses so severely that the casing must be used before the completion of the casting. However, in reality it is difficult and cumbersome to draw the casing in the water or sea, so the casing does not draw the casing and is buried in the pile hole (these casings are called sacrificial steel pipes and are not considered when examining the structure). There is a problem that the city park is expensive depending on the purchase and construction.

The present invention is to solve the problems as described above, and to improve the casing to prevent the collapsing of the pile hole in the underground through the improvement of the casing and the construction of the composite site pour pile and the construction that can satisfy the strength of the pile The purpose is to provide a method.

Synthetic field-pouring pile according to the present invention for achieving the object as described above, the casing is inserted into the pile hole formed in the ground and the filler is placed in the interior of the casing, the casing is a casing hollow inside The first reinforcing ribs are formed in a direction perpendicular to the inner circumferential surface of the main body and the casing body, and are spaced apart at regular intervals along the circumferential direction, and are formed in a direction orthogonal to the first reinforcing ribs on the inner circumferential surface of the casing body, and vertically interposed therebetween. It includes a second reinforcing rib spaced at a predetermined interval along the longitudinal direction, characterized in that it comprises a plurality of filling holes which are formed in the first reinforcing rib and the second reinforcing rib and filled with the filler.

Synthetic site-pouring pile construction method according to the present invention, the casing body is hollow inside, formed in a vertical direction on the inner circumferential surface of the casing body spaced from each other at regular intervals along the circumferential direction and provided with a plurality of filling holes The reinforcing ribs are formed on the inner circumferential surface of the casing body in a direction orthogonal to the first reinforcing ribs, and the casings are formed of second reinforcing ribs provided with a plurality of filling holes spaced apart from each other at regular intervals along the vertical direction. A first step of drilling a pile hole in the ground through the auger after joining the unit; A second step of leaving the casing in the pile hole and drawing the auger from the pile hole when the drilling of the pile hole is completed by the first step; And a third step of filling the inside of the casing with the filling material when the auger is drawn through the second step, so that the filling material fills the inside of the casing and the filling holes of the first and second reinforcing ribs. It features.

According to the synthetic field-pouring pile and this construction method according to the present invention, in addition to the function of preventing the collapse of the pile hole during filling of the filling material by reinforcing the casing itself by focusing on embedding the casing in the ground to integrate the behavior with the filling material. It is possible to reduce the cost of the rebar by securing the structural stability of the pile without forming the reinforcement by reinforcing the reinforcement, it is possible to shorten the air according to the reinforcement of the reinforcement.

1 is a side view of the construction state of the construction site-pouring pile according to the present invention.
Figure 2 is a partially cutaway perspective view of the casing applied to the synthetic field-pouring pile according to the present invention.
Figure 3 is a plan view of the construction state of the composite cast-in-place pile according to the present invention.
Figure 4 is a perspective view of the main portion showing that the casing applied to the synthetic field-pouring pile according to the present invention is connected to a plurality of unit tubes.
5 is a plan view of the coupling state of the key groove and the key projection according to FIG.
Figure 6 is a side view of the installation state is applied to the head reinforcement to the composite site-pouring pile according to the present invention.
7 is a plan view of Fig.
Figures 8a and 8b is a fixed state diagram of the upper reinforcing bar fixed plate and the casing of the head reinforcement bars respectively applied to FIG.
9A and 9B are diagrams illustrating a connection state of the lower reinforcing bar fixing plate and the shaft reinforcement of the head reinforcement bars respectively applied to FIG. 6.

As shown in Fig. 1 to Fig. 3, the composite spot-pouring pile according to the present invention comprises a casing 10 and a filler 20.

Filler 20 is the same as the filler used in the existing cast-in-place piles, such as concrete, mortar, so a detailed description thereof will be omitted.

The casing 10 is hollow to be filled with the filler 20 therein, and may be made of a steel pipe of a distal surface.

The casing 10 is reinforced with strength by integrating the filler and the behavior so as not to use reinforcing bars, and the first and second reinforcing ribs 12 are formed in the longitudinal direction in the casing main body 11 and the casing main body 11 of a circular cross section, for example. , 13).

The first reinforcing ribs 12 are formed along the longitudinal direction (based on the installation state) on the inner circumferential surface of the casing body 11 to provide a holding force against the longitudinal force of the casing body 11.

The first reinforcing ribs 12 are formed in a band shape on the inner circumferential surface of the casing body 11 at regular intervals along the circumferential direction and fixed by welding or the like.

The second reinforcing ribs 13 are formed in the circumferential direction on the inner circumferential surface of the casing main body 11 to provide a holding force against the lateral force of the casing main body 11.

The second reinforcing ribs 13 are formed on the inner circumferential surface of the casing main body 11 at regular intervals along the vertical direction to secure the holding force in the longitudinal direction of the casing main body 11.

When the first reinforcing rib 12 is first formed in the casing body 11, the second reinforcing rib 13 is formed in an arc shape and interposed between the first reinforcing ribs 12 and the second reinforcing rib 13. Is formed in the casing body 11 firstly, the second reinforcing rib 13 is formed in a ring shape, and the first reinforcing rib 12 is interposed between the second reinforcing ribs 13 of the casing body 11. The rigidity is increased to prevent deformation of the casing 10.

The first and second reinforcing ribs 12 and 13 are filled with a plurality of filling holes 12a and 13a so that the filler 20 may be filled to bind the filler 20 and the first and second reinforcing ribs 12 and 13, respectively. Is formed.

The first and second reinforcing ribs 12 and 13 having the above-described structure are formed to protrude from the inner circumferential surface of the casing body 11 within a range that does not interfere with the pile drilling equipment.

The upper part of the first reinforcing rib 12 may be configured as a head reinforcing part 12b so as to protrude to the upper portion of the casing body 11 and bind with the concrete foundation part that is placed on the ground. The head reinforcement part 12b is buried in the concrete of the concrete foundation, and may be bound with the main reinforcing bar 1 arranged in the concrete foundation to increase the binding force.

In addition, a plurality of first reinforcing ribs 12 are formed in one casing body 11, and the head reinforcing portion 12b may be connected to one or more band reinforcing bars 12c. The strip reinforcing bars 12c may be connected to the filling holes 12a formed in the first reinforcing ribs 12.

Synthetic site-pouring pile 100 according to the present invention can be added to the reinforcing plate (11a) on the inner peripheral surface of the casing body 11, as shown in Figure 1 for the reinforcement of the tip portion. The reinforcing plate 11a may be padded entirely on the inner circumferential surface of the casing body 11 in the form of a ring, or alternatively, may be padded along the circumferential direction on the inner circumferential surface of the casing body 11 as a curved plate. The reinforcing plate 11a is coupled to the bottom of the lowermost second reinforcing rib 13, and a plurality of reinforcing pieces 11b may be coupled and reinforced along the circumferential direction.

The construction method of the synthetic field-pouring pile thus constructed is as follows.

The casing 10 is mounted on the periphery of the auger and the slime is discharged to the ground while inserting the casing 10 while drilling a pile hole in the ground by the auger. Since the auger drilling and mounting of the casing 10 by the auger is the same as the conventional one can be sufficiently carried out by those skilled in the art, a detailed description thereof will be omitted. When drilling by the auger, the casing 10 supports the wall surface of the drilling hole so that the drilling hole does not collapse.

When the insertion of the casing 10 is completed, the auger is drawn out of the casing 10 and the filler 20 is poured into the casing 10. The filler 20 is filled while being stacked from the inner bottom of the casing body 11 to the top, and at this time, some of the filler 20 is filled in the filling holes 12a and 13a of the first and second reinforcing ribs 12 and 13. The casing 10 and the filler 20 are bound to each other through the filler 20 filled in the filling holes 12a and 13a.

When curing of the filler 20 is completed, the synthetic site-pouring pile 100 of the present invention is constructed, and when the external force is applied to the pile 100, the first reinforcing ribs 12 secure the longitudinal rigidity and the pile 100. ) To prevent the bending deformation in the longitudinal direction, and the second reinforcing rib 13 to secure the lateral rigidity so that the pile 100 does not bend in the transverse direction.

Accordingly, the casing 10 prevents the drilling hole from collapsing even in the soft ground or the sea during drilling of the drilling hole, and also the first and second reinforcing ribs 12 and 13 without reinforcing the reinforcing bars inside the casing 10. By this, structural reinforcement can be secured.

On the other hand, although only one casing 10 may be used depending on the depth of the excavation hole, in consideration of the manufacture, storage and transport of the casing 10, as shown in Figure 4, a plurality of unit pipes (first and second unit pipes in the drawing (10-1, 10-2) as an example) may be connected in series.

The first and second unit pipes 10-1 and 10-2 may be connected through various methods, and the first and second unit pipes may be fixed by a key method so as to be easily connected without using a separate fastener in the field. It is connected by welding the outer peripheral surface between (10-1, 10-2).

For example, as shown in FIG. 5, a plurality of key grooves 14 are formed at an upper end of the first unit pipe 10-1 along the circumferential direction, and at a lower end of the second unit pipe 10-2. A plurality of key protrusions 15 are thus formed.

Insert the key protrusion 15 of the second unit pipe 10-2 into the key groove 14 of the first unit pipe 10-1, and then turn the second unit pipe 10-2 in one direction. The first and second unit pipes 10-1 and 10-2 may be fixed by hooking 15 around the key groove 14 of the first unit pipe 10-1.

In the drawings, reference numerals 14-1 and 15-1 denote connection rings in which the key grooves 14 and the key protrusions 15 are formed, respectively. That is, the key protrusion 15 of the second unit pipe 10-2 is fixed to the connection ring 14-1 of the first unit pipe 10-1. Key grooves are formed at the upper end of the second unit pipe 10-2, like the first unit pipe 10-1, and key protrusions are formed at the lower end of the third unit pipe, so that the third unit pipe is the second unit. It is connected to the upper part of the pipe 10-2. Through this structure, a plurality of unit pipes are connected in series.

The connection rings 14-1 and 15-1 are fixed to the casing body 11 by welding, and a plurality of filling holes are provided.

Figure 6 shows an example in which the head reinforcement reinforcement 200 is applied to the composite site-pouring pile according to the present invention, the first reinforcing rib 12 does not protrude to the upper portion of the casing body 11, the head reinforcement ( 200 is composed of a plurality of shaft reinforcement 210, a multi-stage strip reinforcing bar 220 connecting the shaft reinforcement 210 arranged in the longitudinal direction.

The head reinforcement reinforcement 200 is fixed and installed inside the casing body 11 through the upper reinforcement plate 230 and the lower reinforcement plate 240. The upper reinforcing plate 230 is, for example, a ring shape of the width and diameter that can be mounted on the first reinforcing rib 12 while being smaller than the inner diameter of the casing body 11, a plurality of axial reinforcement 210 in the circumferential direction Penetrates along;

The upper reinforcing plate 230 is provided with a hanger 231 to be installed in the casing 10 with the fixing of the shaft reinforcement (210).

The hanger part 231 is formed at the periphery of the upper reinforcing plate 230 and is seated on the upper surface of the casing body 11 to fix the upper reinforcing plate 230.

The hanger part 231 may be formed at a predetermined interval along the circumferential direction at the circumferential direction of the upper reinforcing bar fixing plate 230 or may be formed entirely, and the end portion thereof may be bent downward to cover the casing body 11 and the casing body 11 Is fixed to the outer circumferential surface of

The shaft rebar 210 may be fixed by welding after being passed through the rebar through hole formed in the upper reinforcing plate 230 as shown in FIG. 8A, and the first and the second shaft rebars 211 and 212 as shown in FIG. After being connected through, for example, the nut 214 is fastened to the first shaft reinforcing bar 211, and may be fixed to the upper reinforcing bar fixing plate 230.

Lower reinforcing plate 240 is in the form of a ring and a plurality of shaft reinforcement 210 is arranged along the circumferential direction.

As shown in FIG. 9A, the bent portion is formed at a lower end of the shaft rebar 210, and the bent portion may be welded after passing through the lower reinforcing plate 240. Alternatively, as shown in FIG. 9B, the shaft rebar 210 may be a lower rebar. After penetrating through the fixing plate 240, it may be fixed by tightening the upper and lower nuts of the lower reinforcing plate fixing plate 240.

10 casing, 11 casing body
12,13: 1st and 2nd reinforcement rib, 12a, 13a: Filling hole
12b: tofu reinforcement, 14: keyway
15: key protrusion, 20: filling material

Claims (8)

It includes a casing (10) inserted into the pile ball formed in the ground and the filling material 20 is placed in the interior of the casing,
The casing has a casing body 11 having a hollow inside, a first reinforcing rib 12 formed in a direction perpendicular to the inner circumferential surface of the casing body and spaced apart at regular intervals along the circumferential direction from each other, and the inner circumferential surface of the casing body. And a second reinforcing rib 13 formed in a direction orthogonal to the first reinforcing rib and spaced apart from each other at regular intervals along the vertical length direction.
The site-filled pile, characterized in that it comprises a plurality of filling holes (12a, 13a) formed in the first reinforcing rib and the second reinforcing rib, respectively. The method of claim 1, wherein the casing is made of a plurality of unit pipes (10-1, 10-2) are connected in series, the plurality of unit pipes are formed at the other end while the key groove 14 is formed at each one end The key projection 15 is formed by the combination of the key groove and the key projection, the on-site synthetic piles, characterized in that connected in the vertical direction along the longitudinal direction. The composite site-pouring pile according to claim 1 or 2, wherein a reinforcing plate (11a) is padded inside the tip of the casing.
4. The head reinforcing part 12b of claim 3, wherein the first reinforcing rib protrudes to the ground end of the casing and is integrally formed with the head reinforcing part 12b embedded while being bound with the main reinforcing bar 1 of the concrete foundation part that is placed on the ground. Composite reinforcement pile, characterized in that the reinforcement is fixed through one or more band reinforcing bars (12c). The method according to claim 3, A plurality of shaft reinforcement 210 arranged in the circumferential direction, a band reinforcing bar 220 connected in multiple stages to the shaft reinforcement, formed in the form of a ring is passed through the shaft reinforcement fixed through welding or nuts The upper reinforcing plate fixing plate 230 is fixed to the upper surface of the casing body through the hanger 231 formed in the circumference, formed in a ring shape, the lower reinforcing plate fixed through the lower end of the shaft reinforcement fixed by welding or nuts 240, the shaft reinforcing bar and the reinforcing bar is a composite site-pouring pile, characterized in that it includes a head reinforcement (200) protruding to the upper portion of the casing body. A casing body 11 having a hollow inside, a first reinforcing rib 12 formed in a vertical direction on the inner circumferential surface of the casing body, spaced at regular intervals along the circumferential direction, and provided with a plurality of filling holes 12a; A casing is formed on the inner circumferential surface of the casing main body in a direction orthogonal to the first reinforcing rib and is spaced at regular intervals along the vertical direction from each other, and includes a second reinforcing rib 13 having a plurality of filling holes 13a. Coupling a 10 to the periphery of the auger and then drilling a pile hole in the ground through the auger;
A second step of leaving the casing in the pile hole and drawing the auger from the pile hole when the drilling of the pile hole is completed by the first step;
When the auger is drawn through the second step, the filler 20 is filled in the casing to fill the filler 20 in the casing and the filling holes of the first and second reinforcing ribs. Composite site-pouring pile construction method comprising a. The method of claim 6, wherein in the third step, the first reinforcing rib of the casing protrudes above the casing main body of the casing to form a head reinforcing portion 12b, and connects a band reinforcing portion 12c to the head reinforcing portion. And binding the head reinforcement to the main reinforcing bar (1) of the concrete foundation and then filling the filler. The method of claim 6, wherein in the second step, a plurality of shaft reinforcement 210 arranged in a circumferential direction, a band reinforcement 220 connected in multiple stages to the shaft reinforcement, formed in a ring shape, the shaft reinforcement is penetrated and fixed The upper reinforcing plate fixing plate 230 is fixed to the upper surface of the casing body through a hanger 231 formed in the circumference, is formed in a ring shape and the lower reinforcing bar fixing plate 240 is fixed through the lower end of the shaft reinforcement Composite head-pouring pile construction method characterized in that the filling the filler after inserting the head reinforcing reinforcement (200) made in the casing body.

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