KR200316797Y1 - The isolated footing type under-Reamed pile - Google Patents

Abstract

Independent basic large diameter field piles of the present invention to simplify the simple basic large diameter field pile installation process, have a strong bearing force against the vertical load, and have a strong resistance to the lateral load of the soft ground; A back muscle structure 9 having a back muscle bell portion 11 of a large diameter D2 and a back muscle pillar portion 13 of a small diameter D3; It is formed larger than the diameter D3 of the reinforcement pillar portion 13 and smaller than the diameter D2 of the reinforcement bell portion 11 so that the lower end thereof is positioned above the reinforcement bell portion 11 of the reinforcement structure 9. A corrugated pipe 15 positioned above the bell portion 11; It consists of the concrete 17 injected into the back muscle bell part 11 and the back muscle pillar part 13 of the back muscle structure 9 located in the lower part and inside of the corrugation pipe 15 through this corrugated pipe 15.

Description

Independent Basic Large Diameter Field Pile {The isolated footing type under-Reamed pile}

The present invention relates to an independent basic large-diameter field pile, and more particularly, to an independent basic large-diameter field pile having a large tip portion formed in a deep bottom of a soft ground (within about 10 m).

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 of strengthening the soft ground, the independent foundation type 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.

This independent basic large diameter field pile installation method uses an independent basic large diameter field pile installation device together with an excavator and earth auger to excavate the bell of the bottom after drilling the ground. Independent foundation type large diameter field pile installation process by the installation device complicates the independent foundation type large diameter field pile installation process for the installation of independent basic large diameter field piles, makes the formation of large diameter bell portion at the bottom difficult, and excavation It is difficult to have a strong resistance to the lateral load of the soft ground because the circular tube is inserted and the circular tube forms the outer surface of the independent foundation large diameter field pile.

The present invention is to solve the above points, to simplify the installation process of the independent basic large diameter field pile, and to form a large diameter bell portion at the bottom of the core has a strong bearing capacity for vertical load, and to the lateral load of the soft ground The purpose is to provide a stand-alone large-diameter field pile with strong resistance to.

This independent large-diameter field pile 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;

A reinforcement structure insertion step of inserting a reinforcement structure formed by reinforcement from the outside and having a diameter of the reinforcement bell portion greater than the diameter of the reinforcement pillar portion to be excavated by the ground excavation process;

It is formed larger than the diameter of the reinforcement pillars of the reinforcement structure so that the lower end of the corrugated pipe is located above the reinforcement bell portion of the reinforcement structure inserted by the reinforcement structure inserting process, is formed smaller than the diameter of the reinforcement bell portion of the reinforcement structure and a plurality of wrinkles in the transverse direction Corrugated pipe installation process for installing the provided corrugated pipe on the outer side of the reinforcement pillar;

A concrete injection process of injecting concrete into the reinforcement bell part and the reinforcement column of the reinforcement structure located in the lower part and in the inner part of the corrugation pipe through the corrugation pipe installed by the corrugation pipe installation step;

By the concrete injected by the concrete injection process is installed by the soil backfill process to refill the soil on the outer periphery of the independent basic large diameter field piles are formed integrally with the reinforcement structure and corrugated pipe.

Independent basic type large diameter field pile by this process is the reinforcement structure is formed by the reinforcement of the reinforcement bell portion of the core bottom is reinforced by the reinforcement larger than the diameter of the reinforcement column so as to be inserted into the excavation of the soft ground;

A corrugated pipe formed on the upper side of the absent bell portion of the abs structure to have a diameter smaller than the diameter of the abdominal muscle bell portion and larger than the diameter of the abdominal muscle pillar portion to surround the abdominal muscle pillar portion of the abdominal muscle structure to form a plurality of corrugations in the transverse direction;

It is made of concrete which is injected into the back muscle pillar and back muscle bell portion of the back muscle structure located inside and below the corrugated pipe to integrally form the back muscle structure and the corrugated pipe.

1 is a cross-sectional view of the process of excavating the ground when installing the independent foundation type large diameter field pile according to the present invention.

Figure 2 is a cross-sectional view of the process of inserting the reinforcement structure when installing the independent foundation type large diameter field pile according to the present invention.

Figure 3 is a cross-sectional view of the process of installing the corrugated pipe when installing the independent basic large diameter field pile according to the present invention.

Figure 4 is a cross-sectional view of the process of injecting concrete when installing the independent foundation type large diameter field pile according to the present invention.

Figure 5 is a cross-sectional view of the process of refilling the soil during the installation of a stand-alone large-diameter field pile according to the present invention.

Figure 6 is a perspective view of a stand-alone large-diameter field pile in accordance with the present invention.

FIG. 7 is an exploded perspective view of the independent basic large diameter field pile of FIG. 6. FIG.

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

1: space bar 3: bit

5: Soft ground 7: Excavation part

9: reinforcement structure 11: reinforcement bell portion

13: reinforcement column 15: corrugated pipe

17: concrete 19: soil

21: file bell part 23: file pillar

D1, D2, D3, D4: Diameter IFUP: Independent Basic Large Diameter Field Pile

Advantages and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

1 is a cross-sectional view of the process of excavating the ground when installing the independent foundation type large diameter field pile according to the present invention, the soft ground (5) with a bit (3) connected to the space bar (1) receiving the rotational power to a predetermined depth Excavate until. 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. The reinforcement structure insertion step is a step of inserting the reinforcement structure 9 into the excavation portion 7 of the soft ground 5, and it is preferable that the reinforcement structure 9 is completed by reinforcing the reinforcement from the outside before the insertion step. .

This reinforcement structure 9 is comprised from the reinforcement bell part 11 and the reinforcement pillar part 13 which form an integral structure. The reinforcement bell portion 11 is a portion located at the bottom of the excavation portion 7 to form a pile bell portion of an independent basic large-diameter field pile, and the reinforcement pillar portion 13 covers the entire excavation portion 7 except the bottom. The pile pillar of the stand-alone large-diameter field pile is formed. In addition, the diameter D2 of the reinforcement bell portion 11 is larger than the diameter D3 of the reinforcement pillar portion 13.

The large diameter D2 of the reinforcement bell portion 11 distributes the vertical load transmitted through the reinforcement pillar portion 13 to the area of the deep bottom of the wide excavation portion 7 so that it can be applied to the vertical load of the independent basic large diameter field pile. Increase your support.

Following the step of inserting the reinforcement structure, a corrugated pipe installation process is performed as shown in FIG. 3. The lower end of the corrugated pipe 15 is provided in a state of reaching the upper side of the barbell bell portion 11. The corrugated pipe 15 is installed on the upper side of the reinforcement bell portion 11 of the reinforcement structure 9 to surround the outer periphery of the reinforcement pillar portion 13. The corrugated pipe 15 allows the injection of concrete into the reinforcement bell portion 11 to form the reinforcement pillar portion 13 of the independent basic large diameter field pile. The diameter D4 of the corrugated pipe 15 is formed smaller than the diameter D2 of the absent bell portion 11 of the gastrocnemius muscle structure 9 and larger than the diameter D3 of the rectus pillars 13. And since the corrugated pipe 15 forms a plurality of curved corrugations formed in the transverse direction, the independent base type large diameter field pile to be formed integrally with the corrugated pipe 15 has a strong resistance against the lateral load of the soft ground 5. To have.

Following this corrugated pipe installation process, a concrete injection process proceeds as shown in FIG. This concrete injection process is a process for completing an independent basic large diameter field pile (IFUP), and the concrete 17 is injected through the corrugated pipe 15 into the lower part and the inside of the corrugated pipe 15 from the outside. The concrete 17 guided by the corrugated pipe 15 is injected into the reinforcement bell part 11 and the reinforcement column part 13 of the reinforcement structure 9 to form the reinforcement structure 9 and the corrugation pipe 15 integrally and softly. An independent basic large diameter field pile IFUP is formed in the excavation 7 of the ground 5.

Following this concrete injection process, the soil backfill process proceeds as shown in FIG. 5. This soil backfilling process fills the soil 19 formed in the outer periphery of the independent basic large diameter field pile (IFUP) and the excavation portion 7 integrally formed by the concrete injection process, and the independent basic large diameter field The pile (IFUP) is firmly installed in the soft ground (5).

Independent basic large diameter field pile (IFUP) is installed as shown in Figure 6, 7, the reinforcement bell portion 11 and the reinforcement pillar portion 13 of the reinforcement structure (9) and the concrete 17 injected therein It is formed by the pile backing bell portion 21 and the pile backing pillar portion 23, thereby forming a structure to strengthen the soft ground by the soil 19 installed and filled in the excavation (7). And the periphery of the pile back pillars 23 is formed of a corrugated pipe 15.

This independent large-diameter field diameter pile (IFUP) forms a large diameter of the pile bell portion 21 to exert a strong support force on the vertical soil acting on the soft ground 5, and by the corrugated pipe 15 by the corrugated structure of the soft ground By exerting a strong resistance to lateral load, the soft ground 5 is strengthened. Therefore, the structure installed in this reinforced ground will be stably supported.

In this way, the present invention excavates the soft ground with the maximum diameter of the independent foundation type large diameter field pile to be installed, inserts the reinforcement structure in the excavation portion, and installs a corrugated pipe outside the reinforcement column of the reinforcement structure, the corrugated pipe By injecting concrete into the interior of the pipe to form an independent foundation type large diameter field pile that integrates the reinforcement structure and the corrugated pipe, a larger diameter independent foundation type large diameter field pile can be conveniently installed. It is possible to strengthen the bearing capacity for and to strengthen the resistance against the lateral load of the soft ground due to the corrugated pipe.

Claims (1)

A reinforcement structure (9) in which the reinforcement bell portion (11) of the core bottom is reinforced with reinforcement to be larger than the diameter of the reinforcement pillar portion (13) so as to be inserted into the excavation portion (7) of the soft ground (5); On the upper side of the reinforcement bell portion 11 of the reinforcement structure 9, the reinforcement structure 9 is formed with a diameter D4 smaller than the diameter D2 of the reinforcement bell portion 11 and larger than the diameter D3 of the reinforcement pillar portion 13. A corrugated pipe 15 surrounding the reinforcement pillar portion 13 of a) and forming a plurality of corrugations in the transverse direction; Concrete which is injected into the back muscle pillar portion 13 and the back muscle bell portion 11 of the back muscle structure 9 located inside and below the corrugated pipe 15 to integrally form the back muscle structure 9 and the corrugated pipe 9 ( Stand-alone large-diameter field piles composed of 17).