KR101253678B1 - Pile foundation and method for constucting the same - Google Patents

Abstract

The present invention relates to a pile foundation structure and its construction method which can effectively prevent the injury caused by buoyancy as well as improving the bearing capacity of the foundation ground.
Pile foundation structure of the present invention, the first drilling portion formed to a predetermined depth in the ground; A second drilling portion formed at a predetermined depth from a lower end of the first drilling portion to a lower portion; A hollow pile installed in the first perforation part, the hollow part being elongated in the longitudinal direction, and the upper and lower ends of the hollow part being opened; And an anchor installed in the hollow part and the second perforated part of the hollow pile, the anchor having a plurality of tension members, a fixing body provided at a lower end of the tension members, and a corrugated pipe disposed outside the tension members. The perforated part is formed to a depth corresponding to the length of the hollow pile, the inner diameter of the first perforated part corresponds to the outer diameter of the hollow pile, the second perforated part is formed to a depth corresponding to the anchorage of the anchor The second drilling portion has a smaller diameter than the first drilling portion, and a sleeve is interposed between an upper outer circumferential surface of the corrugated pipe and an upper inner circumferential surface of the hollow pile, and a flange extending in an outer diameter direction is formed at a lower end of the sleeve. , The flange is in contact with the inner peripheral surface of the hollow pile.

Description

PILE FOUNDATION AND METHOD FOR CONSTUCTING THE SAME}

The present invention relates to a pile foundation structure, and more particularly to a pile foundation structure and a construction method that can effectively prevent the injury caused by buoyancy while improving the bearing capacity of the foundation ground.

In general, a structure must have sufficient bearing capacity to support the structure, or else settlement occurs at the top or deep of the foundation ground, which greatly affects the stability of the structure built thereon.

Therefore, before constructing the structure, it is necessary to investigate whether the bearing capacity of the ground can adequately withstand the weight or load acting on the ground by the structure through suitable survey such as geological survey and soil survey. The bearing capacity is determined by the strength of the ground, the size of the foundation, and the ingress of the foundation. If the strength of the foundation is insufficient, it is the most reliable method to increase the ingress of the foundation. However, when the load transmitted to the foundation is very large, the entry of the foundation must be considerably increased, and therefore, the construction of the pile construction method is inevitable because it requires considerable construction cost to deeply enter the foundation.

The pile foundation is classified as a deep foundation method in soil and basic engineering, and is evaluated as the most stable method among the foundation methods. The pile method allows the foundation to be supported at a very solid depth by intruding deeply rigid steel, concrete, wood, etc., which is a very important consideration. That is, the penetration of piles in the middle soil should be easy and the bearing capacity of the pile tip should be certain. However, in the adjacent waters of the river, gravel and amber stones are often thickly deposited, so it is impossible to infiltrate piles by hitting, and sand and gravel layers are difficult to use as tip support layers because scouring occurs. Therefore, such a strata use a bore pile method such as a large-diameter well well foundation or a pre-drilled auger equipment to hit concrete in the field.

On the other hand, the structure is affected by buoyancy (positive pressure) due to groundwater, and the buoyancy may cause various problems such as deformation or cracking due to movement, ascent or settlement, or groundwater flow into the structure. Can be. To prevent such buoyancy, a buoyancy prevention anchor is installed on the foundation ground.

In particular, in the case of soft ground, since the resistance to the bearing capacity and buoyancy of the foundation ground is weak, it has been separately constructed a pile to strengthen the bearing capacity and anchors for preventing buoyancy.

However, such a conventional method is required to form a plurality of perforations individually to construct the pile and buoyancy prevention anchors individually, the process is very complicated and expensive to build and the disturbance of the foundation ground occurs badly There was a disadvantage in that the supporting force or buoyancy prevention function of the foundation ground is lowered.

The present invention has been made in view of the above points, and an object thereof is to provide a pile foundation structure and a construction method that can effectively implement a solid bearing capacity reinforcement and buoyancy prevention function of the foundation ground.

Pile foundation structure of the present invention for achieving the above object,

A first drilling portion formed to a predetermined depth in the ground;

A second drilling portion formed at a predetermined depth from a lower end of the first drilling portion to a lower portion;

A hollow pile installed in the first perforation part, the hollow part being elongated in the longitudinal direction, and the upper and lower ends of the hollow part being opened; And

And a plurality of tension members, anchors provided at lower ends of the tension members, and corrugated pipes disposed on the outer sides of the tension members.

The first drilling portion is formed to a depth corresponding to the length of the hollow pile, the inner diameter of the first drilling portion corresponds to the outer diameter of the hollow pile, the second drilling portion is a depth corresponding to the anchorage of the anchor And the second perforation has a smaller diameter than the first perforation,

A sleeve is interposed between the upper outer circumferential surface of the corrugated pipe and the upper inner circumferential surface of the hollow pile, a lower end of the sleeve is formed with a flange extending in the outer diameter direction, the flange is in contact with the inner circumferential surface of the hollow pile,

The outer grout is injected into the outer space of the corrugated pipe, the inner grout is injected into the inner space of the corrugated pipe, an upper sealant is installed on the upper outer peripheral surface of the corrugated pipe, and a lower sealant is installed on the lower outer peripheral surface of the corrugated pipe, The grout is sealed by the upper sealant, and the inner grout is sealed by the lower sealant, so that a free field of tension members is formed in the upper portion of the lower sealant, and a fixing field of tension members is formed in the lower portion of the lower sealant. .

The top of the hollow pile is provided with a plurality of connecting reinforcement, the connecting reinforcement is bent in a "b" shape consisting of a vertical portion and a horizontal portion, the vertical portion is coupled to the upper inner diameter surface of the hollow pile, The horizontal portion extends in the outer diameter direction from the top of the hollow pile, the horizontal portion of the connecting reinforcement is characterized in that it is connected to the lower reinforcement and the upper reinforcing side of the base concrete layer.

The hollow pile is made of a concrete material, characterized in that the plurality of reinforcement is pre-tensioned in the concrete material is composed of a structure built in the longitudinal direction.

Construction method of pile foundation structure according to the present invention,

A first step of forming a first drilling portion having a predetermined depth in the ground;

A second step of constructing a hollow pile having a hollow part in the first perforated part;

A third step of forming a second drilling portion in the lower portion of the first drilling portion;

A fourth step of injecting grout after inserting anchors having a plurality of tension members, fixing members and corrugated pipes in the hollow portion and the second perforated portion of the hollow pile; And

A fifth step of placing the discarded concrete layer and the foundation concrete layer on the ground after the sleeve is interposed between the upper outer peripheral surface of the corrugated pipe of the anchor and the upper inner peripheral surface of the hollow pile;

The sixth step of tensioning the tension member of the anchor,

In the fifth step, the upper end of the hollow pile and the reinforcing bar of the concrete layer is connected to each other through connecting reinforcing bars.

In the fourth step, the upper sealing material is installed on the upper outer peripheral surface of the corrugated pipe, the lower sealing material is installed on the lower outer peripheral surface of the corrugated pipe, the outer grout is injected into the outer space of the corrugated pipe, the inner grout in the inner space of the corrugated pipe And the outer grout is sealed by the upper sealant, and the inner grout is sealed by the lower sealant, so that a free field of tension members is formed on the upper part of the lower sealant, and a fixture of tension members is provided on the lower part of the lower sealant. It is characterized in that the composition.

According to the present invention as described above, as the anchor is constructed through the hollow portion and the second boring portion of the hollow pile after forming the first and second boring portions stepwise, the perforation of the portion corresponding to the free field of the anchor is Since it is not required, it is possible to prevent the disturbance of the ground due to excessive perforations, such as the prior art, there is an advantage that the process can be made very easy and economical construction.

In addition, according to the present invention, as the outer grout is also injected into the hollow portion of the hollow pile, there is an advantage that the support rigidity of the hollow pile can be significantly improved.

In addition, by interposing a sleeve between the upper inner circumferential surface of the hollow pile and the upper outer circumferential surface of the corrugated pipe of the anchor, there is an advantage that it is possible to implement a firm tension of the anchor by not affecting the formation of the free field of the anchor.

1 is a view showing a pile foundation structure according to an embodiment of the present invention.
FIG. 2 is an enlarged detailed view of a portion A of FIG. 1.
3 is an enlarged detailed view of an arrow B in FIG. 1.
4 is an enlarged detailed view of an arrow C portion.
5 to 9 is a view showing a construction method of the pile foundation structure of the present invention,
5 shows a step of forming the first perforation part, FIG. 6 shows a step of constructing a hollow pile, FIG. 7 shows a step of inserting an anchor, and FIG. 8 shows a step of installing a sleeve of the anchor. 9 shows the step of tensioning the anchor.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4 is a view showing a pile foundation structure according to an embodiment of the present invention.

As shown, the pile foundation structure according to an embodiment of the present invention is the first drilling portion 1 formed in a predetermined depth in the ground, the second drilling portion 2 formed in the lower portion of the lower end of the first drilling portion (1) ), The hollow pile 10 installed in the first drilling portion 11, the hollow portion 11 and the anchor 20 installed in the second drilling portion (2) of the hollow pile (10).

The first drilling portion 1 is formed to a depth corresponding to the length of the hollow pile 10, and has an inner diameter similar to the outer diameter of the hollow pile (10).

The second drilling portion 2 extends from the lower side of the first drilling portion 1, and the second drilling portion 2 is formed to have a length corresponding to the anchorage of the anchor 20. The second perforation 2 has a smaller diameter than the first perforation 1.

The hollow pile 10 is composed of various piles having a hollow portion 11 formed in the longitudinal direction such as PHC pile (Pretensioned spun high strength concrete pile), PC pile (Prestressed high-strength concrete pile), steel pipe pile, etc. The upper and lower ends of the hollow part 11 are open. In particular, the hollow pile 10 of the present embodiment is composed of a concrete material having a hollow portion 11 at its center, and a plurality of reinforcement 12 is pre-tensioned in the concrete is composed of a structure built in the longitudinal direction Would be preferred.

A plurality of connecting bars 13 is provided at the upper end of the hollow pile 10. In particular, the connecting reinforcing bar 13 is bent in a "b" shape consisting of a vertical portion (13a) and a horizontal portion (13b), the vertical portion (13a) is coupled to the upper inner diameter surface of the hollow pile (10) , The horizontal portion 13b extends in the outer diameter direction from the upper end of the hollow pile 10, whereby the horizontal portion 13b of the connecting reinforcement 13 extends in a planar radial structure. The horizontal portion 13b of the connecting reinforcing rod 13 is connected to the lower reinforcing bar 4a and the upper reinforcing bar 4b side of the base concrete layer 4, and when the foundation concrete layer 4 is poured, the connecting reinforcing bar 13 Through the hollow pile 10 is firmly connected to the base concrete layer (4).

The anchor 20 includes a plurality of tension members 21, a fixing body 22 provided at the lower ends of the tension members 21, and a corrugated pipe 23 disposed outside the tension members 21.

The plurality of tension members 21 extend in the longitudinal direction, and the plurality of tension members 21 are bound to each other through the plurality of tapes 21d. The tension members 21 are configured such that a free field 21a is formed in the hollow portion 11 of the hollow pile 10 and a fixing field 21b is formed at the second perforation portion 2 side. In this case, since the part corresponding to the free field 21a of the anchor 20 need not be drilled, the process is simple and economical construction is easy.

The lower end of the tension member 21 is provided with a cone-shaped fixing body 22, the outer side of the tension member 21 corrugated pipe 23 is disposed radially spaced apart, the corrugated pipe 23 may be made of a high-density polyethylene material. . The corrugated pipe 23 of the present embodiment can widen the contact area with the grouts 31 and 32 through the structure in which the corrugations are formed in the outer circumferential surface thereof in the vertical direction, thereby greatly fixing the corrugated pipe 23 and the tension members 21. There is an advantage that can be improved.

In addition, a sleeve 26 is disposed on an upper outer circumferential surface of the corrugated pipe 23, an acupressure plate 27 is installed on an upper side of the sleeve 26, and an anchor head 28 is provided on an upper surface of the acupressure plate 27. A protective cap 29 is installed above the anchor head 28 and the tension member 21.

The sleeve 26 has a flange 26a extending in the outer diameter direction at the bottom thereof, and the sleeve 26 is interposed between the upper outer circumferential surface of the corrugated pipe 23 and the upper inner circumferential surface of the hollow pile 10 so that the base concrete layer ( The concrete of 4) can prevent the contact with the outer circumferential surface of the corrugated pipe 23, through which the tension members 21 of the anchor 20 is not affected by the composition of the free field (21a) tension members (21) It can give a more firm tension.

In addition, a part of the concrete of the foundation concrete layer 4 is filled between the outer circumferential surface of the sleeve 26 and the inner circumferential surface of the hollow pile 10 so that the reinforced concrete layer between the outer circumferential surface of the sleeve 26 and the hollow pile 10 ( 4c) is formed. Through this, the hollow pile 10 can be more firmly connected to the base concrete layer (4b).

One or more grout hoses 28 are disposed between the plurality of tension members 21, and grouts may be injected into the inner and outer spaces of the corrugated pipe 23 through the grout hoses 28. In particular, the grout hose 28 is an inner grout hose 28a located on top of the fixture 22 and an outer grout hose 28b extending downward through the fixture 22, as shown in FIG. The inner grout 31 is injected into the inner space of the corrugated pipe 23 and the outer circumferential surface of the tension members 21 through the discharge port of the inner grout hose 28a, and the discharge pipe of the outer grout hose 28b. 28c is connected, and the outer grout 32 may be injected into the outer space of the corrugated pipe 23 through the outer grout hose 28b and the discharge pipe 28c. In particular, the outer grout 32 can greatly increase the support rigidity of the hollow pile 10 by injecting the outer grout 32 into the space between the outer circumferential surface of the corrugated pipe 23 and the inner circumferential surface of the hollow pile 10. .

The upper outer peripheral surface of the corrugated pipe 23 is provided with a polyurethane upper sealing material 24, the lower inner peripheral surface of the corrugated pipe 23 is provided with a lower sealing material 25. The outer grout 32 injected into the outer space of the corrugated pipe 23 is sealed by the upper seal 24, and the inner grout 31 injected into the inner space of the corrugated pipe 23 is sealed by the lower seal 25. do. As a result, the inner grout 31 is not injected into the upper inner space of the lower sealing member 25 of the corrugated pipe 23, and the inner grout 32 is injected into the inner inner space of the lower sealing material 25 of the corrugated pipe 23. In addition, a free length 21a of a predetermined length is formed at the top of the tension members 21, and a fixing length 21b of a predetermined length is formed at the bottom of the tension members 21.

In particular, the lower seal 25 may be located at the point where the first and second perforations 1 and 2 meet each other.

In addition, the lower ends of the tension members 21 positioned in the lower inner space of the lower sealing member 25 of the corrugated pipe 23 may be uncoated so as to more firmly fix the inner grout 31.

5 to 9 is a process chart showing a pile foundation construction method according to an embodiment of the present invention.

First, as shown in FIG. 5, a first drilled portion 1 having a predetermined depth is formed through auger or the like in the ground, and the depth of the first drilled portion 1 corresponds to the length of the hollow pile 10. It is formed to.

Then, a hollow pile 10 is inserted into the first drilled portion 1 of the ground as shown in FIG. 6, and the hollow pile 10 is a PHC pile (Pretensioned spun High strength Concrete pile) and a PC pile (Prestressed high). The hollow part 11 is formed of various piles formed in the longitudinal direction such as a strength concrete pile, a steel pipe pile, and the upper and lower ends of the hollow part 11 are open. In particular, the hollow pile 10 of the present embodiment is composed of a concrete material having a hollow portion 11 at its center, and a plurality of reinforcement 12 is pre-tensioned in the concrete is composed of a structure built in the longitudinal direction Would be preferred. In addition, a tapered portion 14 is formed at a lower end of the hollow pile 10 so that the hollow pile 10 may be more easily inserted into the first drilling portion 1.

In addition, a plurality of connecting bars 13 is provided at the upper end of the hollow pile 10. In particular, the connecting reinforcing bar 13 is bent in a "b" shape consisting of a vertical portion (13a) and a horizontal portion (13b), the vertical portion (13a) is coupled to the upper inner diameter surface of the hollow pile (10) , The horizontal portion 13b extends in the outer diameter direction from the upper end of the hollow pile 10, whereby the horizontal portion 13b of the connecting reinforcement 10 extends in a planar radial structure.

Thereafter, as shown in FIG. 7, a second drilled portion 2 having a predetermined depth is formed in the lower direction by using a crawler drill at the lower end of the first drilled portion 1, and the depth of the second drilled portion 2 is It is formed to correspond to the anchorage length (fixed length) of the anchor 20, the second punched portion 2 has a diameter smaller than the first drilled portion (1).

After forming the second punched portion 2, the anchor 20 is inserted into the hollow 11 and the second punched portion 2 of the hollow pile 10 as shown in FIG. 8. After the anchor 20 is inserted, the inner grout 31 and the outer grout 32 are injected from the bottom to the top of the anchor 20 through the grout hose 28 of the anchor 20.

Subsequently, as shown in FIG. 8, the sleeve 26 is positioned between the upper outer circumferential surface of the corrugated pipe 23 of the anchor 20 and the upper inner circumferential surface of the hollow pile 10. The lower end of the sleeve 26 is provided with a flange 26a, and the outer circumferential surface of the flange 26a is in contact with the inner circumferential surface of the hollow pile 10. The sleeve 26 prevents the concrete of the foundation concrete layer 4 from contacting the outer circumferential surface of the corrugated pipe 23, whereby the tension members 21 of the anchor 20 are formed in the free field 21a. By not being affected by this, it is possible to give the tension members 21 more firm tension.

Subsequently, after casting the discarded concrete layer 3 on the upper surface of the ground as shown in FIG. 9, the lower reinforcing bars 4a and the upper reinforcing bars 4b of the foundation concrete layer 4 are disposed on the discarded concrete layer 3, Concrete is poured after connecting the horizontal portions 13b of the connecting bars 13 to the lower reinforcing bars 4a and the upper reinforcing bars 4b of the foundation concrete layer 4. Particularly, a part of the concrete of the foundation concrete layer 4 is filled between the outer circumferential surface of the sleeve 26 and the inner circumferential surface of the hollow pile 10 so that the reinforced concrete layer between the outer circumferential surface of the sleeve 26 and the hollow pile 10 ( 4c) is formed. As described above, a reinforced concrete layer 4c is formed in the upper inner space of the hollow pile 10, and the hollow pile 10 is connected to the reinforcing bars 4a and 4b of the foundation concrete 4 through the connecting reinforcing bars 13. By being firmly coupled with the support force of the hollow pile 10 can be significantly reinforced.

Thereafter, after the acupressure plate 27a and the anchor head 27b are installed on the upper side of the anchor 20, the tension members 21 of the anchor 20 are tensioned in the longitudinal direction by pulling the tension members 21 from the top to the outside, and the tension members 21 Cover the top of the anchor head and the anchor head (27b) with a protective cap (28c).

 According to the present invention as described above, after the first and second perforations 1, 2 are formed step by step through the hollow 11 and the second perforations 2 of the hollow pile 10 anchor ( Since the construction of 20) does not require the perforation of the portion corresponding to the free field 21a of the anchor 20, it is possible to prevent the disturbance of the ground due to excessive perforation as in the prior art, and the process is very simple and economical. There is an advantage that the construction can be made.

In addition, according to the present invention, as the outer grout 32 is also injected into the hollow portion 11 of the hollow pile 10, the supporting rigidity of the hollow pile 10 may be greatly improved.

The anchor 20 is not affected by forming the free field of the anchor 20 by interposing the sleeve 26 between the upper inner circumferential surface of the hollow pile 10 and the upper outer circumferential surface of the corrugated pipe 23 of the anchor 20. It has the advantage of realizing a strong tension.

1: First Drill 2: Second Drill
3: discarded concrete layer 4: basic concrete layer
10: hollow pile 11: hollow portion
20: anchor 21: tension material
22: fixture 23: corrugated tube

Claims (5)

delete A first drilling portion formed to a predetermined depth in the ground;
A second drilling portion formed at a predetermined depth from a lower end of the first drilling portion to a lower portion;
A hollow pile installed in the first perforation part, the hollow part being elongated in the longitudinal direction, and the upper and lower ends of the hollow part being opened; And
And a plurality of tension members, anchors provided at lower ends of the tension members, and corrugated pipes disposed on the outer sides of the tension members.
The first drilling portion is formed to a depth corresponding to the length of the hollow pile, the inner diameter of the first drilling portion corresponds to the outer diameter of the hollow pile, the second drilling portion is a depth corresponding to the anchorage of the anchor And the second perforation has a smaller diameter than the first perforation,
A sleeve is interposed between the upper outer circumferential surface of the corrugated pipe and the upper inner circumferential surface of the hollow pile, a lower end of the sleeve is formed with a flange extending in the outer diameter direction, the flange is in contact with the inner circumferential surface of the hollow pile,
The outer grout is injected into the outer space of the corrugated pipe, the inner grout is injected into the inner space of the corrugated pipe, an upper sealant is installed on the upper outer peripheral surface of the corrugated pipe, and a lower sealant is installed on the lower outer peripheral surface of the corrugated pipe, The grout is sealed by the upper sealant, and the inner grout is sealed by the lower sealant, so that a free field of tension members is formed in the upper portion of the lower sealant, and a fixing field of tension members is formed in the lower portion of the lower sealant.
The top of the hollow pile is provided with a plurality of connecting reinforcement, the connecting reinforcement is bent in a "b" shape consisting of a vertical portion and a horizontal portion, the vertical portion is coupled to the upper inner diameter surface of the hollow pile, The horizontal portion extends in the outer diameter direction from the top of the hollow pile, the horizontal portion of the connecting reinforcement pile foundation, characterized in that connected to the lower reinforcement and the upper reinforcement side of the base concrete layer. The method of claim 2,
The hollow pile is made of a concrete material, a pile foundation structure, characterized in that the plurality of reinforcement in the concrete material is pre-tensioned and built in the longitudinal direction. delete A first step of forming a first drilling portion having a predetermined depth in the ground;
A second step of constructing a hollow pile having a hollow part in the first perforated part;
A third step of forming a second hole having a smaller diameter than the first hole in the lower portion of the first hole;
In the hollow portion and the second perforated portion of the hollow pile, a plurality of tension members extending in the longitudinal direction, a fixture provided on the lower end of the plurality of tension members and a corrugated pipe disposed outside the plurality of tension members A fourth step of injecting grout after inserting the anchor; And
Between the upper outer circumferential surface of the corrugated pipe and the upper inner circumferential surface of the hollow pile, contacting the inner circumferential surface of the hollow pile and an outer diameter extending through the sleeve formed at the lower end of the discarded concrete layer and the foundation concrete layer on the ground A fifth step of pouring;
The sixth step of tensioning the tension member of the anchor,
In the fifth step, the upper ends of the hollow piles and the reinforcement of the foundation concrete layer are connected to each other through connecting bars,
In the fourth step, the upper sealing material is installed on the upper outer peripheral surface of the corrugated pipe, the lower sealing material is installed on the lower outer peripheral surface of the corrugated pipe, the outer grout is injected into the outer space of the corrugated pipe, the inner grout in the inner space of the corrugated pipe And the outer grout is sealed by the upper sealant, and the inner grout is sealed by the lower sealant, so that a free field of tension members is formed on the upper part of the lower sealant, and a fixture of tension members is provided on the lower part of the lower sealant. Construction method of pile foundation structure, characterized in that the composition.

Images