KR20150085602A - Foundation structure and construction method thereof - Google Patents

Abstract

A through hole (21) is formed in the center of a base plate (20) by forming a diameter of the center of the through hole (21) The present invention provides a method of constructing a foundation structure and a foundation structure by minimizing the damage of existing reinforcing bars and eliminating the need for a separate reinforcement joining operation, And the main surface friction force and the tip end supporting force of the file are increased, so that the base structure can be stably stiffened.

Description

[0001] FOUNDATION STRUCTURE AND CONSTRUCTION METHOD THEREOF [0002]

Field of the Invention [0002] The present invention relates to a civil engineering field, and more particularly, to a foundation structure and a construction method thereof.

In the foundation structure, a pile is installed to transfer the load of the superstructure to the ground.

The general method of construction is to puncture the ground, inserting the files, grouting, installing the fixing plate on the head of the pile, and then placing the foundation bottom concrete.

Such a file exerts its strength by frictional force (frictional force between the outer circumference of the pile and the ground) and the tip supporting force.

If it is necessary to expand (enlarge) the existing structure, such as remodeling of the apartment, depending on the situation of the site or the apartment, the file or additional file is installed under the foundation bottom. There is the same problem.

2 is a process diagram for explaining a conventional additional file construction method.

Conventionally, a method has been employed in which an additional file 10a is installed around an existing file 10 installed under a base bottom plate 20 of an existing structure 40. [

That is, a part of the base bottom plate 20 is cut at a position where the additional file 10a is to be installed, and then the additional file 10a is installed.

Here, as a part of the foundation bottom plate 20 is cut off, after the broken lower reinforcing bars 2 are connected to each other, a work is performed to install the support plates and to connect the broken upper reinforcing bars 1.

In other words, in the above operation, a part of the foundation bottom plate 20 should be cut, a part of the existing reinforcing bars 1 and 2 is damaged, and after the additional pile 10a is installed, 2) need to be re-joined, so that the work is cumbersome and the construction period is long.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to minimize the damage of existing reinforcing bars and to eliminate the need for separate reinforcement joining operations, Which is capable of stably supporting the foundation structure by increasing the frictional force and the tip supporting force of the main surface of the pile, and a method of constructing the foundation structure.

In order to solve the above-mentioned problem, the present invention is characterized in that a pile (100) installed in a through hole (21) of a base bottom plate (20) And the diameter of the central portion is enlarged and formed as a reference.

The through hole 21 includes a ridge 22 formed by expanding a diameter of a center portion with respect to a height direction of the bottom plate 20. The ridge 22 extends from an upper portion and a lower portion to an intermediate portion It is preferable that the diameter d1 gradually increases as the distance d2 approaches.

It is preferable that the reamer 22 is formed so that the bent portion 23 formed in the intermediate portion is curved.

Preferably, the reaming portion 22 has a flat portion 24 formed at an intermediate portion thereof.

The file 100 preferably includes a steel rod 100a.

And a shearing ring (110) inserted into the head of the file (100).

The shearing ring 110 has a trapezoidal cross section, a vertical section formed in a circular shape, and an upper inclined portion 111 formed to be inclined such that the upper surface of the shearing ring has a central portion higher than that of the edge portion. A lower inclined portion 112 having an inverted trapezoidal cross section, a vertical section formed in a circular shape, and a lower surface inclined at a lower center portion than the edge portion; And a cylindrical body 113 formed between the upper inclined portion 111 and the lower inclined portion 112.

Preferably, the shearing ring 110 is installed on the head portion of the pile 100 at a plurality of intervals along the height direction.

The present invention provides a method of constructing a foundation structure for constructing the foundation structure, comprising: a through-hole forming step of forming the through-hole 21 with respect to the foundation bottom plate 20; Forming a perforation hole (30) in a lower portion of the through hole (21); Installing a file (100) in the through hole (21) and the perforation hole (30); And a grouting step of integrating the pile 100 with the through hole 21 and the perforation hole 30 together.

The through-hole 21 includes a reamer 22 formed by enlarging a diameter of a center portion with respect to a height direction. The reamer 22 has a diameter d1 gradually increasing from the upper portion and the lower portion toward the intermediate portion, .

Preferably, the step of installing a plurality of shearing rings 110 along the height direction on the head of the file 100 before the file forming step.

The shearing ring 110 has a trapezoidal cross section, a vertical section formed in a circular shape, an upper inclined portion 111 formed to be inclined such that the upper surface of the shearing ring has a central portion higher than that of the edge portion, an inverted trapezoidal cross- A lower inclined portion 112 which is formed in a circular shape and which is inclined so that the center portion of the lower surface is lower than that of the edge portion and a cylindrical inclined portion 112 formed between the upper inclined portion 111 and the lower inclined portion 112, (113).

The through hole 21 may be formed with respect to the bottom plate 20 supporting the load of the upper structure together with the existing pile 10 installed at the lower side.

The grouting step may include a perforation hole grouting step for integrating the pile 100 and the perforation hole 30; And a through-hole grouting step for integrating the file (100) and the through-hole (21)

And forming a vertical displacement between the pile 100 and the ground by pressing the pile 100 downward between the perforation hole grouting step and the through hole grouting step Do.

Preferably, the grouting step is performed by injecting a non-shrinkage mortar grout material.

The present invention minimizes damage to existing reinforcing bars, eliminates the need for separate rebar re-joining operations, facilitates work due to simultaneous drilling and drilling operations, shortens the construction period, increases the frictional force and leading end support force of the pile To provide a foundation structure capable of stably supporting a foundation structure and a construction method thereof.

1 and 2 are process drawings of a conventional method of constructing a foundation structure.
3 is a cross-sectional view and partially enlarged plan view showing an installation state of a conventional file;
4 shows an embodiment of a foundation structure according to the present invention,
4 is a sectional view showing an installation state according to the first embodiment of the file;
5 is a partially enlarged plan view showing the installation state of a file;
6 is a sectional view of the first embodiment of the reaming;
7 is a stress distribution diagram of a file installed in the reamer.
8 is a sectional view of a second embodiment of the reaming.
Fig. 9 is a perspective view showing a shearing installation state; Fig.
10 is a sectional view showing an installation state according to a second embodiment of the file;
11 is a sectional view showing a conventional shearing installation state.
12 is a perspective view of shearing.
13 is a stress distribution diagram of shearing.
14 and 15 show a process diagram of a foundation structure construction method according to the present invention,
FIG. 14 is a process chart showing a file setting step and a displacement forming step; FIG.
15 is a stress distribution diagram of a file according to a displacement forming step;

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

4, the basic structure proposed in the present invention includes a file 100 installed in the through hole 21 of the base bottom plate 20, and the through hole 21 is formed in the bottom plate 20 The diameter of the center portion is enlarged with respect to the height direction of the center portion.

That is, in the present invention, the contact area of the leading end of the pile 100 and the grouting material filled in the through hole 21 is increased through the structure in which the diameter of the through hole 21 into which the pile 100 is inserted is increased, ) And the structure for increasing the load bearing capacity.

Accordingly, there is an advantage that the structural stability of the foundation structure can be secured by improving the leading end bearing force and the main surface friction force that the file 100 can exert.

Particularly, the file 100 is resilient to the insertion force of the grouting material filled in the through hole 21 and the through hole 21 after the installation. In the present invention, the center of the through hole 21, The function of the file 100 can be maximized.

In the case of installing the additional file 10a on the basis of the situation of the site or around the existing file 10 in the general construction method of the foundation structure, Or an additional file 10a is installed (Fig. 2).

As shown in Fig. 3, after cutting a part of the base bottom plate 20 in the past, an additional pile 10a is provided.

However, the basic structure proposed in the present invention is not a method of installing the pile 100 by cutting a part of the base bottom plate 20, but rather punching a part of the base bottom plate 20 through a small- The hole 21 is formed and the drilling operation is simultaneously performed so that the diameter of the central portion of the through hole 21 is enlarged in the drilling step (FIG. 4).

That is, compared with the cross sectional area ( ₁ x ₂ ) of cutting the base bottom plate 20 conventionally, the present invention perforates the through hole 21 with a relatively small diameter ( ₃ ) 3,5).

The expanded region of the through hole 21 is arranged between the upper reinforcing bar 1 and the lower reinforcing bar 2 laid on the base bottom plate 20 (Figs. 6 and 10).

The foundation structure of the present invention can minimize the damage of the reinforcing bars 1 and 2 laid on the foundation bottom plate 20 by installing the pile 100 in the above manner, As the joint work is unnecessary, the work is easy and the construction period can be shortened.

In addition, since it is possible to construct in a narrow space with a small noise and vibration due to the small hole diameter, it is advantageous that it is easy to use as an anchor for buoyancy to receive tensile, .

Here, the file 100 is more preferably structurally and functionally used by the steel rod 100a.

The structure in which the diameter of the central portion of the through hole 21 of the present invention is formed will be described in more detail as follows.

That is, in the through hole 21, there is formed a reamer 22 with a diameter of the center portion being widened with respect to the height direction of the bottom plate 20. The closer the reamer 22 is from the upper portion and the lower portion to the middle portion And the diameter d1 is gradually expanded.

The structure of the bent portion 23 having the largest diameter d1 in the middle portion of the reaming 22 is curved.

This structure is advantageous in preventing the phenomenon that the diameter d1 of the reaming 22 is progressively increased as the distance d1 approaches the middle portion, but the stress is concentrated on the bent portion 23.

In other words, when the bent portion 23 is formed in an angular structure instead of a curved structure, stress is concentrated on the bent portion 23 having an angular structure, which may cause damage (FIG. 11).

Therefore, in the present invention, the stability of the file 100 is ensured through the structure of the reamer 22 having the bent portion 23 curved as described above, and the file 100 has a more stable load bearing capacity (FIG. 7).

It is also preferable that the flat portion 24 is formed in the middle portion of the reaming 22, that is, the region where the diameter d1 is the largest (Fig. 8).

This structure is effective in reducing the stress efficiently through the structure in which the diameter d2 is progressively expanded from the upper portion and the lower portion of the reaming 22 to the intermediate portion as compared with the bent portion 23 of the angled structure shown in Fig. The intermediate region where the greatest stress is generated is formed by the structure of the flat portion 24, so that the effect of providing a more stable supporting force can be obtained.

The basic structure of the present invention can be effectively applied when it is necessary to enlarge (enlarge) the size of an existing structure, such as the remodeling of an apartment.

Particularly, in the above case, there is a possibility that the load bearing capacity of the additionally installed file 100 is lower than that of the previously installed file. Therefore, before the grouting operation is performed on the through hole 21 after the file 100 is installed, (See FIG. 14) by pressing the upper surface 100 of the pile 100 downward, thereby forming a vertical displacement between the pile 100 and the ground.

That is, the additional file 100 is not only installed on the foundation bottom plate 20 but also the additional file 100 is pressed downward to form a vertical displacement between the additional file 100 and the ground (Fig. 15).

In this way, when the existing structure is enlarged after the displacement occurs between the additional file 100 and the ground, the additional file 100 can exhibit not only the end support force but also the main surface friction force due to the displacement, There is an effect that the additional file 100 can properly share the additional load of the structure, thereby eliminating or reducing the burden of adding the load to the existing file 10.

In order to maximize the structural stability of the base structure proposed in the present invention, it is preferable that the shearing ring 110 is inserted into the head of the pile 100 (Fig. 9).

Through this structure, a keying force acts between the grouting material filled in the through hole 21 and the shear ring 110.

In addition, since the shearing ring 110 has a function of transferring a load acting as an external force to the pile 100, there is an advantage that the burden on the bottom plate 20 can be reduced and a more stable foundation structure can be realized (Fig. 10) .

The structure of the above shearing ring 110 can be specifically implemented as follows.

That is, the shearing ring 110 has a trapezoidal cross-sectional structure, a vertical section formed in a circular shape, an upper inclined portion 111 formed to be inclined such that the upper portion of the shearing ring has a central portion higher than that of the edge portion, A lower inclined portion 112 formed to be inclined so that the lower surface of the lower surface is lower than a central portion of the lower surface of the lower inclined portion 112 and a cylindrical body portion formed between the upper inclined portion 111 and the lower inclined portion 112, (Fig. 12).

That is, as shown in FIG. 11, the shearing ring 11 installed in the conventional file 100 has a rectangular cross-section, whereas the shearing ring 110 used in the present invention has a trapezoidal cross- The structure including the upper inclined portion 111 and the lower inclined portion 112 increases the load bearing area.

This has the effect of maximizing the engaging force exerted between the shearing ring 110 and the grouting material filled in the through hole 21.

In addition, since the conventional shearing ring 110 is formed in a rectangular cross-section, stress is concentrated on the corner portion, while the shearing ring 110 of the present invention is formed by the upper inclined portion 111 and the lower inclined portion 112 The stress is more effectively dispersed to secure the stability of the shear ring 110 and to effectively transmit the external load to the pile 110 (FIG. 13).

It is preferable from the structural and functional viewpoint that the shearing ring 110 is provided on the head portion of the file 100 at a plurality of intervals along the height direction.

Next, a foundation structure construction method for constructing the foundation structure shown in the present invention will be described.

First, after a through hole 21 is formed in the base bottom plate 20, a step of forming a perforation hole 30 in the lower portion of the through hole 21 is performed.

The above step is carried out to minimize the damage of the reinforcing bars (1, 2) through a small core boring operation. Since the operation of opening the central portion of the through hole (21) is performed at the same time during drilling operation, .

After the file 100 is inserted into the through hole 21 and the perforation hole 30 with a plurality of shear rings 110 spaced from each other along the height direction on the head portion, (21) and the perforation hole (30) are integrated with each other.

In the present invention, it is preferable to inject the non-shrinkage mortar grout material in the grouting step.

As described above, the through hole 21 includes a reamer 22 formed by enlarging the diameter of the center portion with respect to the height direction. The reamer 22 has a diameter (d1) is formed in a gradually expanded structure.

With this construction method, the effect of maximizing the function of the pile 100 can be obtained by improving the fitting force of the grout material filled in the pile 100 and the through hole 21.

In addition, as described above, the sheath ring 110 has a structure in which a load bearing area is increased as compared with a general sheath ring 11 used in the prior art. The sheath ring 110 has a shear ring 110 and a through- The effect of maximizing the clamping force acting on the filled grout material can be obtained.

The construction method of the present invention can be effectively applied even when the scale of the existing structure needs to be enlarged (enlarged), such as remodeling of an apartment.

That is, in this case, the through hole 21 is formed with respect to the bottom plate 20 supporting the load of the upper structure together with the existing pile 10 installed downward in the through hole forming step.

After the file 100 is installed as described above, the grooves are formed in the perforation hole 30, and then the file 100 is moved to the lower side without grouting so that the through holes 21 and the perforation holes 30 are integrated with each other. So that a vertical displacement is formed between the pile 100 and the ground, and a grouting operation is performed on the through hole 21. [

That is, through the operation of forming the vertical displacement between the additional file 100 and the ground, the additional file 100 can effectively exhibit the frictional force along with the leading end supporting force, so that the additional load of the expanded structure is added It is advantageous that the file 100 can be appropriately shared.

After sufficient displacement has occurred, once the existing structure is expanded, the load is evenly distributed to the existing file and the additional file, resulting in the result that the added load actually acts only on the additional file.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

1: Upper Reinforcement 2: Lower Reinforcement
20: base bottom plate 21: through hole
22: Expansion d1: Expansion diameter
23: a bent portion 24:
30: Perforation hole 40: Existing structure
40a: enlarged structure 100: file
100a: Steel rod 110: Shearing
111: upper inclined portion 112: lower inclined portion
113:

Claims (15)

A file 100 installed in the through hole 21 of the base bottom plate 20;
≪ / RTI &
The through hole (21)
And a diameter of a central portion of the foundation bottom plate (20) is widened with respect to a height direction of the foundation bottom plate (20). The method according to claim 1,
The through hole (21)
(22) formed with a diameter of a central portion being formed with a height in a direction of a height of the bottom plate (20)
≪ / RTI &
The recharging (22)
Characterized in that the diameter (d1) is progressively widened from the upper and lower portions toward the intermediate portion. 3. The method of claim 2,
The recharging (22)
And the bent portion (23) formed in the intermediate portion is curved. 3. The method of claim 2,
The recharging (22)
And a flat portion (24) is formed at an intermediate portion. The method according to claim 1,
The file (100)
And a steel rod (100a). The method according to claim 1,
A shearing ring 110 inserted into the head of the file 100;
≪ / RTI > The method according to claim 6,
The shearing ring (110)
An upper inclined portion 111 having a trapezoidal cross section, a vertical section formed in a circular shape, and an inclined upper surface with a central portion being higher than an edge portion;
A lower inclined portion 112 having an inverted trapezoidal cross section, a vertical section formed in a circular shape, and a lower surface inclined at a lower center portion than the edge portion;
A cylindrical body portion 113 formed between the upper inclined portion 111 and the lower inclined portion 112;
≪ / RTI > The method according to claim 6,
The shearing ring (110)
Wherein a plurality of spaced apart portions are provided on the top of the pile (100) along the height direction. A foundation structure construction method for constructing a foundation structure according to any one of claims 1 to 8,
A through hole forming step of forming the through hole (21) with respect to the base bottom plate (20);
Forming a perforation hole (30) in a lower portion of the through hole (21);
Installing a file (100) in the through hole (21) and the perforation hole (30);
A grouting step for integrating the pile 100 with the through hole 21 and the perforation hole 30;
Wherein the foundation structure construction method comprises: 10. The method of claim 9,
The through hole (21)
(22) formed by enlarging a diameter of a center portion with respect to a height direction,
Wherein the reamer (22) is gradually expanded in diameter (d1) from the upper portion and the lower portion toward the intermediate portion. 10. The method of claim 9,
Before the file formation step,
Installing a plurality of shearing rings (110) at intervals on the top of the pile (100) along a height direction;
Wherein the base structure construction method further comprises: 12. The method of claim 11,
The shearing ring (110)
An upper inclined portion 111 formed to have a trapezoidal cross section, a vertical section formed in a circular shape, an upper portion inclined to have a central portion higher than an edge portion thereof,
A lower inclined portion 112 formed in an inverted trapezoidal cross section, a vertical section formed in a circular shape, a lower surface inclined at a lower center portion than the edge portion,
And a cylindrical body portion (113) formed between the upper inclined portion (111) and the lower inclined portion (112). 10. The method of claim 9,
The through-hole forming step
And the through hole (21) is formed with respect to the bottom plate (20) supporting the load of the upper structure together with the existing pile (10) installed on the lower side. 10. The method of claim 9,
The grouting step
A perforation hole grouting step for integrating the pile 100 and the perforation hole 30;
A through hole grouting step for integrating the pile 100 and the through hole 21;
≪ / RTI &
Between the perforation hole grouting step and the through-hole grouting step,
A displacement forming step of pressing the file 100 downward to form a vertical displacement between the file 100 and the ground;
Wherein the base structure construction method further comprises: 10. The method of claim 9,
The grouting step
Characterized in that a non-shrinkage mortar grout material is injected.

Images