KR20040098954A - Method for isolated footing type under-Reamed pile and the isolated footing type under-Reamed thereof - Google Patents

Abstract

PURPOSE: An isolated footing-type under-reamed pile(IFUP) and an installation method thereof are provided to easily mount the pile, to simplify an installation work, and to reduce the number of work processes by a hollow cylindrical steel pipe. CONSTITUTION: An isolated footing-type under-reamed pile(IFUP) mounting method is composed of steps for excavating the poor ground to a maximum diameter(D1) of an isolated footing-type under-reamed pile(IFUP) to be mounted on a predetermined place on the poor ground; inserting combination structures in an excavation part(7) of the poor ground; pouring concrete in an H beam bell part or a bar arrangement bell part(11) positioned at a lower side of a cylindrical steel pipe forming a hollow part and the hollow part of the cylindrical steel pipe through the hollow part of the steel pipe; backfilling around the outer periphery of the isolated footing-type under-reamed pile(IFUP) with soil(19) formed by integrating the H beam bell part or the bar arrangement bell part with the cylindrical steel pipe by concrete. A first combination structure comprises the bar arrangement bell part of which a diameter(D2) is larger than a diameter(D3) of the cylindrical steel pipe forming the hollow part and the cylindrical steel pipe combined to the bar arrangement bell part by welding.

Description

Independent basic large diameter field pile installation method and its independent basic large diameter field pile installation method {Method for isolated footing type under-Reamed pile and the isolated footing type under-Reamed applied}

The present invention relates to an independent basic type large diameter field pile installation method and the independent basic type large diameter field pile, and more specifically, an independent basic type having a large diameter portion (about 10 m or less) formed on the bottom of a soft ground. It relates to a large diameter field pile installation method and an independent basic type large diameter field pile installed by the independent basic large diameter field pile installation method.

In general, soft ground has insufficient bearing capacity as the foundation ground of the structure due to the excessive moisture content of the soil, adversely affects the structure due to deformation and fluidity due to compression, and is usually made of viscous soil having an N value of 4 or less. to be. These soft grounds are mainly present in new alluvial sites such as triangular footnotes and landfills.

In order to build a structure on such a soft ground and to maintain a stable state of the structure, the soft ground must be reinforced to have a strong supporting force.

One of the methods for strengthening the soft ground, the independent basic large diameter field pile installation method, uses an excavator or earth auger to excavate the ground, form bellows which are enlarged in the excavated core, and reinforce the reinforced structure Insert and cast concrete to install independent basic large diameter field piles in the excavation and bell of the ground.

Conventional independent large-diameter field pile installation method is to excavate the ground, as shown in the cross-sectional view of the large diameter field pile installed by the conventional large-diameter field pile installation method of Figure 1, and to excavate the bell portion of the bottom Independent foundation type large diameter field pile installation device is used together, and the independent foundation type large diameter field pile installation process by the independent basic type large diameter field pile installation device The large-diameter field pile installation process was complicated, and the formation of the large-diameter bell portion 100 at the bottom was difficult.

In order to solve the above problems, the present inventors filed the independent basic large diameter field pile installation method and the independent basic large diameter field pile by the method as of March 7, 2003, Republic of Korea Patent Application No. 10-2003-14291 In more detail, a cross-sectional view of the reinforcement structure used in the conventional independent basic type large diameter field pile installation method of FIG. 3, and a cross-sectional view of the reinforcement structure insertion process in the conventional independent basic type large diameter field pile installation method of FIG. 4, and FIG. In the conventional independent basic type large diameter field pile installation method of the diameter of the bellows 320 of the core bottom to be inserted into the excavation portion 310 of the soft ground 300 as shown in the cross-sectional view of the corrugated pipe installation process on the outside of the reinforcement structure A reinforcement structure 340 which is formed by reinforcing the reinforcement larger than the diameter of the reinforcement pillar portion 330;

The reinforcement bell portion 330 of the reinforcement structure 340 is formed on the upper side of the reinforcement bell portion 320 is smaller than the diameter of the reinforcement bell portion 320 and larger than the diameter of the reinforcement pillar portion 330. Wrapped and corrugated pipe 350 to form a plurality of wrinkles in the transverse direction;

Concrete to be injected into the reinforcement pillar portion 330 and the reinforcement bell portion 320 of the reinforcement structure 340 positioned inside and below the corrugated pipe 350 to integrally form the reinforcement structure 340 and the corrugated pipe 350 ( 360) has provided an independent basic large diameter field pile installation method and the independent basic large diameter field pile.

However, in the independent basic large diameter field pile installation method as described above, since the corrugated pipe is formed of thin plastic or steel plate, it is difficult to accurately fix it vertically as the center of the reinforcement bell part and the reinforcement column part. Due to the problem that the corrugated pipe is biased to one side due to the lateral load of the concrete to be poured, the center of the independent foundation type large diameter field pile is biased to one side and thus the foundation ground of the pile does not have a proper bearing force.

In addition, the reinforcement bell part and the reinforcement column part, which are the foundation of the independent foundation type large diameter site pile, are made of reinforcing bars, which increases the labor cost due to the time required for the production. Due to the extension of the period, the direct and indirect labor costs of the total cost of construction increased, which led to a problem that the competitiveness with other construction methods fell.

The present invention has been devised to improve the above problems, and also in the independent basic large diameter field pile installation method and the independent basic large diameter field pile invented by the inventor, even if not the above problems, another independent foundation It is an object of the present invention to provide a large-diameter field pile installation method and the independent basic large-diameter field pile.

Independent basic type large diameter field pile for achieving the present invention is the reinforcement bell portion assembled with reinforcing bars in the bell portion of the large diameter in order to form a large diameter bell portion at the bottom of the core to have a strong bearing capacity for vertical load, A joining structure consisting of a cylindrical steel pipe forming a hollow joined by welding thereto; A coupling structure comprising an H beam bell portion assembled with an H beam in a large diameter bell portion, and a cylindrical steel pipe forming a hollow joint welded to the H beam bell portion; According to the thickness of the cylindrical steel pipe to form the hollow is characterized in that it is provided with a reinforcement pillar portion formed of reinforcement to withstand the upper load inside the cylindrical steel pipe forming the hollow.

The independent basic large diameter field pile installation method is a ground excavation process for excavating the soft ground to the maximum diameter of the independent basic large diameter field pile to be installed at a predetermined position of the soft ground;

Soft ground is formed of a reinforcement bell portion having a diameter larger than the diameter of the cylindrical steel pipe formed from the reinforcement from the outside to form a hollow, and a cylindrical steel pipe forming a hollow coupled to the reinforcement bell portion by welding. Bonding structure insertion step of inserting into the excavation of the;

A concrete injection process of injecting concrete into the hollow of the reinforcement bell portion positioned below the cylindrical steel pipe forming the hollow and the hollow steel pipe forming the hollow through the hollow of the cylindrical steel pipe forming the hollow;

It is composed of a soil backfilling process to refill the soil on the outer periphery of the independent basic large diameter field piles are formed integrally with the reinforcement bell portion and the cylindrical steel pipe forming the hollow by the concrete injected by the concrete injection process.

The coupling structure inserted into the inserting process may be inserted with a reinforcement pillar formed of reinforcing bars to withstand the upper load in the interior of the cylindrical steel pipe to form a hollow according to the thickness of the cylindrical steel pipe to form a hollow, In addition, in accordance with the characteristics of the bell bottom portion of the excavation hole wall is coupled to the cylindrical steel pipe forming the hollow and integrally joined by welding with the cylindrical steel pipe forming the hollow using the H-beam bell portion instead of the reinforcement bell portion that is integrally combined by welding. The structure may be inserted, as well as an upper load on the inside of the cylindrical steel pipe forming the hollow according to the thickness of the cylindrical steel pipe forming the hollow for the coupling structure consisting of the cylindrical steel pipe forming the hollow with the H beam bell portion. It may be provided with a reinforcement pillar formed of reinforcement to withstand.

In addition, the independent foundation type large diameter field pile by the independent foundation type large diameter field pile installation method is the reinforcement bell portion or H which is formed by reinforcing the reinforcement larger than the diameter of the cylindrical steel pipe forming a hollow so as to be inserted into the excavation of the soft ground A beam bell portion;

A cylindrical steel pipe forming a hollow formed in the center of the reinforcement bell portion or the H beam bell portion and having a diameter smaller than the diameter of the reinforcement bell portion or the H beam bell portion;

A cylindrical steel pipe is formed integrally with the reinforcement bell portion or the H beam bell portion which is positioned below the cylindrical steel pipe forming the hollow, and is injected into the hollow of the cylindrical steel pipe forming the hollow with the reinforcement bell portion or the H beam bell portion. It is composed of concrete.

1 is a cross-sectional view of a large diameter field pile installed by a conventional large diameter field pile installation method.

Figure 2 is a cross-sectional view of the reinforcement structure used in the conventional independent foundation type large diameter field pile installation method.

Figure 3 is a cross-sectional view of the step structure insertion step in the conventional independent foundation type large diameter field pile installation method.

Figure 4 is a cross-sectional view of the corrugated pipe installation process on the outside of the reinforcement structure in a conventional independent basic type large diameter field pile installation method.

Figure 5 is a cross-sectional view of the ground excavation process in the independent basic large diameter field pile installation method of the present invention.

Figure 6a is a cross-sectional view of the coupling structure insertion process in the independent basic large diameter field pile installation method of the present invention.

Figure 6b is a cross-sectional view of another coupling structure insertion process in the independent basic large diameter field pile installation method of the present invention.

Figure 6c is a cross-sectional view of another coupling structure insertion process in the independent basic large diameter field pile installation method of the present invention.

Figure 6d is a cross-sectional view of another coupling structure insertion process in the stand-alone large-diameter field pile installation method of the present invention.

7 is a perspective view of a cylindrical steel pipe forming a hollow of the present invention.

Figure 8 is a cross-sectional view of the concrete injection process in the independent foundation large diameter field pile installation method of the present invention.

Figure 9 is a cross-sectional view of the soil backfill process in the stand-alone large-diameter field pile installation method of the present invention.

10 is a perspective view of an independent basic type large diameter field pile installed on the ground by the method of installing the independent type large diameter field pile of the present invention.

* Description of the symbols for the main parts of the drawings *

1: space bar 3: bit

5: soft ground 6,6 ', 6 ", 6"': bonded structure

7: Excavation part 11: Back muscle bell part

12: reinforcement pillar 13: hollow

15: cylindrical steel pipe 17: concrete

19: soil 21: pile bell

23: pile pillar 25: H beam bell portion

27: barrier 29: space part

31: support rods D1, D2, D3: diameter

IFUP: Independent Basic Large Diameter Field Pile

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

5 is a cross-sectional view of the ground excavation process in the stand-alone large-diameter field pile installation method of the present invention, excavating the soft ground (5) to a predetermined depth with a bit (3) connected to the space bar (1) receiving rotational power do. The diameter D1 of this excavation 7 is formed to the maximum diameter of the independent basic large diameter field pile to be actually installed.

As such, the excavation portion 7 having a large diameter D1 increases the diameter of the independent basic large diameter field pile to be installed, thereby forming a large resistance area against the vertical load, so that it has a strong bearing force against the vertical load, and is also soft. Installation of independent foundation type large diameter field piles by eliminating the need for independent foundation type large diameter field pile installation process to excavate the deep bottom of excavation part 7 using a separate independent foundation type large diameter field pile installation device after excavation of ground (5) Simplify the process.

Following the ground excavation process, as shown in FIG. 6A, the reinforcement bell portion 11 and the reinforcement bell portion having a diameter D2 larger than the diameter D3 of the cylindrical steel pipe 15 forming the hollow 13. A process of inserting the coupling structure 6 made of a cylindrical steel pipe 15 forming a hollow 13 to be welded to 11 is performed. The coupling structure 6 insertion step is a step of inserting the coupling structure 6 into the excavation portion 7 of the soft ground 5, the coupling structure 6 is completed and inserted from the outside before the insertion step.

The reinforcement bell portion 11 is a portion located at the bottom of the excavation portion 7 to form a pile bell portion 21 of the independent basic large diameter field pile, and the cylindrical steel pipe 15 forming the hollow 13 The pile pillars 23 of the independent basic large diameter field piles are formed over the entire excavation portion 7 except the core bottom. In addition, the diameter D2 of the reinforcement bell portion 11 is larger than the diameter D3 of the cylindrical steel pipe 15 forming the hollow 13.

The large diameter D2 of the reinforcement bell portion 11 distributes the vertical load transmitted through the cylindrical steel pipe 15 forming the hollow 13 to the area of the bottom of the wide excavation portion 7, thereby increasing the independent base type large diameter. Increase bearing capacity for vertical loads on site piles.

The coupling structure 6 withstands the upper load inside the cylindrical steel pipe 15 forming the hollow 13 according to the thickness of the cylindrical steel pipe 15 forming the hollow 13 as shown in FIG. 6B. A coupling structure 6 'having a reinforcement pillar portion 12 formed of reinforcing bars and a cylindrical portion forming the hollow 13 according to the characteristics of the core bottom bell portion of the excavation portion 7 as shown in FIG. 6C. Coupling structure coupled integrally by welding with a cylindrical steel pipe 15 to form a hollow 13 by using the H-beam bell portion 25 instead of the reinforcement bell portion 11 that is integrally coupled by welding with the steel pipe 15 ( 6 ″).

Also for the coupling structure 6 ″ consisting of the H-beam bell portion 25 and the cylindrical steel pipe 15 forming the hollow 13, the cylindrical steel pipe 15 forming the hollow 13 as shown in FIG. 6D. According to the thickness of the) is divided into a coupling structure (6 '') having a reinforcement pillar portion 12 formed of reinforcement to withstand the upper load inside the cylindrical steel pipe (15) forming a hollow (13).

In addition, the large diameter (D2) of the H-beam bell portion 25 also distributes the vertical load transmitted through the cylindrical steel pipe 15, which also forms the hollow 13, in the area of the deep cavities 7 core bottom Increasing the bearing capacity for vertical loads of independent foundation large diameter field piles.

At a predetermined height above the reinforcement bell portion 11 or the H-beam bell portion 25, a cylindrical membrane in which the blocking film 27 for forming a hollow 13 is formed so that the concrete 17 to be poured is not leaked to a portion to be filled with soil. It is welded to the steel pipe 15 of is integrally coupled.

In addition, the front end portion of the cylindrical steel pipe 15 forming the hollow 13 may be installed anywhere in the center of the reinforcement bell portion 11 or the H-beam bell portion 25, but as shown in FIGS. 6A to 6D, the hollow ( 13 is preferably installed in the middle portion so as to maintain the vertical when it is fixedly coupled with the cylindrical steel pipe 15 and the reinforcement bell portion 11 or the H beam bell portion 25 to form a 13). In addition, as shown in FIG. 7, at the distal end of the cylindrical steel pipe 15 forming the hollow 13, the barrier film 27 and the barbell bell 11 or H installed in the cylindrical steel pipe 15 forming the hollow 13 are formed. In order to smoothly fill the concrete 17 with the space 29 formed by the coupling structure 6, 6 ′, 6 ″, 6 ″ ′ formed by being coupled to the beam bell 25, the excavation 7. A plurality of supporting rods 31 are formed in the cylindrical portion around the tip end of the cylindrical steel 15 forming the hollow 13.

The cylindrical steel pipe 15 forming the hollow 13 is installed in the middle of the reinforcement bell portion 11 or the H-beam bell portion 25 to surround the outer periphery of the pile pillar 23. The cylindrical steel pipe 15 forming the hollow 13 enables the injection of concrete 17 into the reinforcement bell portion 11 or the H beam bell portion 25 while forming an independent basic large diameter field pile.

The diameter D3 of the cylindrical steel pipe 15 forming the hollow 13 is smaller than the diameter D2 of the reinforcement bell portion 11 or the H beam bell portion 25.

Reinforcement bell portion 11 having a diameter (D2) larger than the diameter (D3) of the cylindrical steel pipe 15 forming the hollow 13, and the hollow coupled to the reinforcement bell portion 11 (welding) Following the insertion process of the coupling structure 6 made of a cylindrical steel pipe 15 to form a 13), the concrete injection process proceeds as shown in FIG. The concrete injection process is a process for completing an independent basic large diameter field pile (IFUP), and the concrete 17 is injected through the hollow 13 of the cylindrical steel pipe 15 forming the hollow 13 from the outside. . The concrete 17 guided by the hollow 13 of the cylindrical steel pipe 15 forming the hollow 13 is a hollow 13 of the cylindrical steel pipe 15 forming the reinforcement bell portion 11 and the hollow 13. ) Is formed into a cylindrical steel pipe (15) integrally formed into the reinforcement bell portion 11 and the hollow 13 to form an independent basic large diameter field pile (IFUP) in the excavation portion (7) of the soft ground (5) To form.

Following the concrete injection process, the soil backfill process is performed as shown in FIG. 9. The soil backfill process fills the soil 19 in the empty space formed on the outer periphery and excavation portion 7 of the independent foundation large diameter field pile (IFUP) integrally formed by the concrete injection process, and the independent basic large diameter site The pile (IFUP) is firmly installed in the soft ground (5).

As such, the independent basic large diameter field pile (IFUP) installed as shown in FIG. 10 is formed by the cylindrical steel pipe 15 and the concrete 17 injected therein, forming the reinforcement bell part 11 and the hollow 13. It is formed of a pile bell portion 21 and a pile pillar 23, and forms a structure for reinforcing the soft ground by the soil 19 installed and filled in the excavation portion (7).

This independent large-diameter field diameter pile (IFUP) to strengthen the soft ground (5) by forming a large diameter of the pile bell portion 21 to exert a strong support force in the vertical acting on the soft ground (5). Therefore, the structure installed in this reinforced ground will be stably supported.

As described above, the present invention excavates the soft ground with the maximum diameter of the independent basic large diameter field pile to be installed, and inserts the cylindrical steel pipe to form the hollow with the reinforcement bell part, and then the cylindrical steel pipe to form the hollow. By injecting concrete into the hollow inside of the pipe to form an independent basic large diameter field pile that integrates the reinforcement bell portion and the cylindrical steel pipe forming the hollow, a larger diameter independent basic large diameter field pile can be conveniently installed. The large diameter of the part strengthens the bearing capacity for the vertical load, as well as the use of cylindrical steel pipes to form hollows in forming the pile column, thereby simplifying the independent basic large diameter field pile installation process, thereby reducing the workmanship. In addition, the installation process of installing the reinforcement bell part and the cylindrical steel pipe forming the hollow It is capable of accurate and smooth effect.

Claims (6)

Ground excavation process for excavating the soft ground (5) to the maximum diameter (D1) of the independent basic large diameter field pile (IFUP) to be installed at a predetermined position of the soft ground; The reinforcement bell portion 11 having a diameter D2 larger than the diameter D3 of the cylindrical steel pipe 15 forming the hollow 13, and the hollow 13 coupled to the reinforcement bell portion 11 by welding. Reinforcement bell portion 11 having a diameter (D2) larger than the diameter (D3) of the coupling structure (6) consisting of a cylindrical steel pipe (15) to form a) or the cylindrical steel pipe (15) forming a hollow (13) and And inserting a coupling structure 6 ″ made of a cylindrical steel pipe 15 forming a hollow 13 coupled to the reinforcement bell portion 11 by welding to the excavation portion 7 of the soft ground 5. Inserting process; The reinforcement bell portion 11 or the H beam bell portion 25 positioned below the cylindrical steel pipe 15 forming the hollow 13 through the hollow 13 of the cylindrical steel pipe 15 forming the hollow 13. Concrete injection process for injecting the concrete 17 into the hollow 13 of the cylindrical steel pipe 15 to form a hollow 13 and; On the outer circumference of the independent base type large diameter field pile (IFUP) formed by the concrete 17 integrally formed cylindrical steel pipe 13 to form the reinforcement bell portion 11 or H beam bell portion 25 and the hollow 13 Stand-alone large diameter field pile installation method, characterized in that consisting of the soil backfill process to backfill the soil (19). The inside of the cylindrical steel pipe (15) according to claim 1, wherein the insertion process forms a hollow (13) in accordance with the thickness of the cylindrical steel pipe (15) forming the hollow (13) of the coupling structure (6, 6 "). An independent basic large diameter field pile installation method, characterized in that the insertion process using the coupling structure (6 ', 6 "') having a reinforcement pillar (12) formed of reinforcing bars to withstand the upper load in. Weld to the reinforcement bell portion 11 and the reinforcement bell portion 11 having a diameter D2 larger than the diameter D3 of the cylindrical steel pipe 15 forming the hollow 13 so as to be inserted into the excavation portion of the soft ground. (Diameter formed larger than the diameter (D3) of the coupling structure (6) consisting of a cylindrical steel pipe (15) forming a hollow (13) joined by (Welding) or a cylindrical steel pipe (15) forming a hollow (13) A coupling structure 6 ″ consisting of an H beam bell portion 25 of D2) and a cylindrical steel pipe 15 forming a hollow 13 which is welded to the H beam bell portion 25; In the hollow 13 of the cylindrical steel pipe 15 to form the hollow bell portion 11 and the reinforcement bell portion located below the cylindrical steel pipe 15 forming the hollow 13 of the coupling structure (6). Cylindrical steel pipe formed of concrete 17 integrally forming a cylindrical steel pipe 15 that is injected to form the reinforcement bell portion 11 and the hollow 13 or a hollow 13 of the coupling structure 6 ″. Injected into the hollow 13 of the cylindrical steel pipe 15 forming the H beam bell portion 25 and the hollow 13 located below the 15 to form the H beam bell portion 25 and the hollow 13 Independent basic type large diameter field pile, characterized in that consisting of concrete (17) integrally forming a cylindrical steel pipe (15). 4. The coupling structure (6, 6 ") according to claim 3 has a top load in the interior of the cylindrical steel pipe (15) forming the hollow (13) according to the thickness of the cylindrical steel pipe (15) forming the hollow (13). Stand-alone large diameter field pile, characterized in that the coupling structure (6 ', 6 "') having a reinforcement pillar portion 12 formed of reinforcing bars to withstand. The concrete 17 according to claim 3 or 4, wherein the concrete 17 is cast at a predetermined height above the reinforcement bell portion 11 or the H beam bell portion 25 of the coupling structure 6, 6 ', 6 ", 6"'. Stand-alone large-diameter field piles, characterized in that the barrier film 27 for preventing the leakage to the portion to fill the soil is welded to the cylindrical steel pipe 15 to form a hollow 13 and integrally combined. 5. The space 29 according to claim 3 or 4, wherein a cylindrical portion is formed around the cylindrical portion of the tip of the cylindrical steel pipe 15 forming the hollow 13 of the coupling structure 6, 6 ', 6 ", 6"'. Independent basic large diameter site pile, characterized in that a plurality of support rods 31 are formed to be filled with concrete (17).