KR101375155B1 - Construction Method of Reinforced Bar Insert Type in-situ Concrete Pile - Google Patents

Abstract

The reinforcing material penetration type construction site construction method of the present invention by installing the outer casing outside the casing to firmly support the casing at the correct position, install the reinforcement support on the upper casing, bolted connection member between the out casing and the reinforcement support By fastening, the steel reinforcement can be stably infiltrated into the pile tip pre-casting concrete, thereby improving the construction accuracy of the site-placed pile and ensuring structural stability.

Description

Construction Method of Reinforced Bar Insert Type in-situ Concrete Pile}

The present invention in the construction of the site-placed piles in which steel reinforcement is embedded, once the concrete is poured into the tip of the pile, the reinforcement and the casing is fixed in the state fixed to the ground, the casing is completed when the curing of the end is completed It relates to a pile construction method for drawing concrete and placing concrete in the rest of the pile, more specifically, by installing the outer casing outside the casing to firmly support the casing at the correct position, and to install the reinforcement support on the top of the casing, By fastening the connecting member with bolts between the out casing and the reinforcement support, the steel reinforcement can be reliably penetrated into the pile tip precast concrete to improve the construction accuracy of the site-placement pile and secure structural stability. It is about reinforcement penetration type on-site pile construction method that can be done.

On-site casting pile is a kind of pile foundation in contrast with ready-made piles. It is composed by pouring concrete into the pre-drilled excavation ball and curing it. Unlike the ready-made pile, the pile structure is completed on the ground. Since the step of elimination is unnecessary, noise or vibration caused by the driving process can be prevented.

In general, pile foundations are resistant to negative pressures of underground structures due to the load of the upper pile structure and groundwater due to the tip bearing force and the main surface frictional force, thus securing the depth of excavation more than the rock layer or the rock layer being too deep In this case, it is necessary to secure near-term entry length.

In addition, the pile not only behaves as a structure that transmits the upper load to the ground, but also itself is a long column-shaped structure that must resist axial compression, transverse bending and buckling stress. Reinforcement or steel frame is embedded as a reinforcement inside.

This reinforcement or steel and concrete composite structure is applied in the same way in the cast-in-place pile, the cast-in-place pile is formed once the excavation ball, and then put the steel reinforcement into the excavation ball through the tremie (tremie) from the top of the pile It is constructed by pouring concrete.

In other words, the excavation ball for the construction of the site-casting pile is drilled by forming the excavation ball at the same time as the penetration of the casing to maintain the wall in the soil layer. Once the excavation ball reaches the planned depth, the casing remains in the excavation device. After withdrawing the steel reinforcement and tremy, and then the casing and tremy will be slowly drawn and lifted-dismantle and at the same time the concrete is to form a pile.

At this time, the steel reinforcement materials, such as section steel, are placed in the state where the lower part is in contact with the end of the excavation ball and the upper part is connected by crane and steel wire, and is mounted. In the curing process, the position or angle of the reinforcement material is very likely to change, and thus, there is a problem that it is extremely difficult to secure the construction accuracy.

Therefore, once the concrete is poured on the tip of the pile, the reinforcement and the casing are fixed to the ground, and the curing is completed, and when the curing of the tip is completed, the casing is drawn out and the concrete is poured on the rest of the pile. The development was able to resolve to some extent the deviation of the reinforcement between concrete placement and curing.

The construction process of the distal end piling method is as follows.

First, the casing is inserted and at the same time, the excavation ball reaches the planned depth, and when the excavation ball is formed, the concrete is partially poured on the tip of the pile through the trem with the casing fixed.

Immediately after the tip concrete is finished, the casing support is fastened to fix the casing to the ground quickly and the reinforcement support is installed quickly.

The casing support and the reinforcement support are devices for fixing the casing and the reinforcement to the ground and the upper end of the casing respectively. And, the reinforcement support is composed of an outer frame coupled to the upper end of the casing and the inner frame fastened to the upper end of the reinforcement serves to support the reinforcement to maintain the correct position in the casing.

When the installation of the casing support and the installation of the reinforcement support of the upper end of the casing is completed, the reinforcement is introduced into the excavation hole by passing through the reinforcement support, but the tip of the reinforcement is inserted into the concrete of the other end of the reinforcement. If the state is difficult to penetrate the concrete of the front end of the reinforcement, the above-described casing support installation or reinforcement support installation process should be completed quickly.

When curing of the precast concrete at the end of the stiffening material is completed, the casing support and the reinforcement support are dismantled, and the casing is drawn and concrete is poured to complete the pile.

However, in the conventional site-pouring pile construction method, the casing is not firmly supported at the correct position, and the reinforcement is not firmly fixed at the correct position, and as a result, the reinforcement is not stably infiltrated into the pile tip precast concrete, thereby placing There is still a problem that it is difficult to secure the structural stability of the pile and takes a long time in the construction process.

In order to solve the above problems, the casing is firmly supported at the correct position by the out casing, and the reinforcement is fixed at the correct position by the connecting member connecting the reinforcing member support and the out casing, and is firmly supported so that the steel reinforcement member Stable penetration of the pile tip into the concrete to improve the construction accuracy of the site-placed piles.In addition to securing structural stability, the construction of reinforcement-type site-placed piles that can simplify the process and shorten the air The purpose is to provide a process.

In order to achieve the above object, the reinforcement immersion-type site-building pile construction method of the present invention is a site-installed pile method in which the reinforcement is embedded, while placing concrete on the lower part of the excavation ball, the reinforcement end portion is buried in the state of curing After the curing is completed, the casing is drawn out and concrete is poured into the remaining portion of the excavation ball to complete the pile.In the field placing pile method, an out casing is installed in the ground and the casing is infiltrated. And drilling the excavation device to form an excavation ball; When the excavation of the excavation ball reaches the depth of the plan is completed, installing a casing support on the upper end of the outer peripheral surface of the casing exposed to the ground surface, and suppressing the settlement of the casing; Drilling an excavator to form additional excavation balls of less than the planned depth; When the additional excavation hole formation is completed, withdrawing the excavation device, and placing part of the concrete at the tip of the pile through the tremy while the casing is fixed; Installing a reinforcing member support on an upper end of the casing, and fastening a connecting member with a bolt between the out casing and the reinforcing member support; Inserting a reinforcing material into the additional drilling hole so as to be located at the center of the casing, and a lower end of the reinforcing material is inserted into the concrete placed in the additional drilling hole; Curing the concrete of the additional excavation ball in a state where the upper end of the reinforcing material is fixed by the reinforcing material supporter; When the curing of the concrete of the excavation ball is completed, after dismantling the reinforcing member support, the casing support and the out casing, placing the concrete inside the excavation ball through the tremy while drawing the casing; And curing the concrete to complete the pile.

The out casing is welded to the outside of the casing to prevent movement of the casing.

As described above, in the present invention, the casing is firmly supported at the correct position by the out casing, and the reinforcement is fixed at the correct position and firmly supported by the connecting member connecting the reinforcing member support and the out casing, so that the steel reinforcement is piled up. It can be stably intruded into the tip-casting concrete to improve the construction accuracy of site-casting piles, and can secure structural stability, simplify the process, shorten the air, and significantly reduce the material. .

1 is an explanatory diagram showing a construction process of the present invention
2 is a flow chart showing the construction process of the present invention
Figure 3 is a view showing the construction of the reinforcement intrusive site pouring pile according to the present invention
4 and 5 are longitudinal cross-sectional / plan views showing the casing support
6 is a plan view showing the out casing
7 is a sectional view taken along the line AA in Fig. 6
8 is a plan view showing a modification of the out casing
9 is a perspective view showing a reinforcement support installed on the upper end of the casing
10 is a longitudinal sectional view showing a fastening structure of the connection member;
11 is a cross-sectional view of the main portion of Figure 9

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the reinforcement pipe in situ pile construction method according to an embodiment of the present invention.

Figure 1 is an explanatory view showing a construction process of the present invention, Figure 2 is a flow chart showing a construction process of the present invention, Figure 3 is a view showing the construction of the reinforcement penetration type site-placement pile construction according to the present invention, Figures 4 and 5 are 6 is a plan view showing an out casing, FIG. 7 is a sectional view taken along the line AA of FIG. 6, FIG. 8 is a plan view showing a modified example of the out casing, and FIG. 9 is a reinforcement support installed at the upper end of the casing. 10 is a longitudinal sectional view showing the fastening structure of the connecting member, and FIG. 11 is a sectional view of the main portion of FIG.

Referring to the accompanying drawings, the reinforcement in-situ site-installed pile construction method according to a preferred embodiment of the present invention as a site-installed pile method in which the reinforcement 160 is embedded, the concrete (C) is poured into a portion of the excavation ball, After curing with a portion of the tip of the reinforcement 160 is embedded at the bottom, after curing is completed, the casing 110 is drawn while placing concrete (C ') on the remaining part of the excavation ball to complete the pile It is about.

Reinforcement pipe-mounted site-pouring pile method according to a preferred embodiment of the present invention is installed out casing 120 in the ground, the casing 110 is inserted, the excavation apparatus 200 is excavated To form an excavation ball (S 10); When the excavation of the excavation ball reaching the planned depth is completed, installing a casing support 130 on the upper end of the outer peripheral surface of the casing 110 exposed to the ground surface (G), and suppressing the settlement of the casing 110 (S 20 ); Drilling an excavation device 200 to form additional drilling holes having a predetermined depth or less (S 30); When the additional excavation hole formation is completed, withdrawing the excavation device 200, and placing part of the concrete (C) to the pile tip portion through the tremy (T) in a state of fixing the casing 110 ( S 40); Installing a reinforcement supporter 140 on an upper end of the casing 110 and fastening the connecting member 150 with a bolt (B) between the out casing 120 and the reinforcement supporter 140 (S 50); Inserting a reinforcing material (160) into the additional drilling hole so as to be located at the center of the casing (110) so that the lower end of the reinforcing material (160) is introduced into the concrete (C) placed in the additional drilling hole (S 60); Curing the concrete (C) of the additional excavation ball in a state where the upper end of the reinforcement member 160 is fixed by the reinforcement support member 140 (S 70); When the curing of the concrete (C) of the excavation ball is completed, after dismantling the reinforcing member support 140, the casing support 130 and the out casing 120, while pulling out the casing (110) Pouring concrete (C ′) inside the excavation ball through T) (S 80); And curing the concrete (C ′) to complete the pile (S 90).

Hereinafter, looking at the reinforcement pipe in situ pile method according to a preferred embodiment of the present invention in more detail.

In the step S 10, the out casing 120 is installed in the ground, and the casing 110 is inserted therein. Then, the excavation apparatus 200 is excavated to form an excavation ball. The out casing 120 is installed in close contact with the outside of the casing 110 to prevent the movement of the casing 110.

In the step (S 20), when the excavation of the excavation ball to reach the planned depth is completed, the casing support 130 is installed on the upper end of the outer peripheral surface of the casing 110 exposed to the ground surface (G) to sink the casing 110 To suppress it.

In other words, the casing support 130 is coupled to the upper end of the outer casing 120 exposed to the ground surface to distribute the self-weight of the casing 110 to the ground (G) to prevent settlement of the casing 110 Perform the function.

In the step (S 30), the excavation apparatus 200 is excavated to form additional excavation balls of a predetermined depth or less.

In the step (S 40), when the formation of the additional excavation ball is completed, withdraw the excavation device 200, the concrete at the tip of the pile through the tremy (T) in a state of fixing the casing 110 Partially cast (C).

In the step (S 50) to install the reinforcement support 140 on the upper casing 110, fastening the connecting member 150 with a bolt (B) between the out casing 120 and the reinforcement support 140. do. Here, the reinforcement supporter 140 uses a member having a "b" shape, and the connection member 150 uses a member having a "c" shaped channel structure.

The reinforcement supporter 140 is composed of a frame coupled to the upper end of the casing 110 and the upper end of the reinforcement 160, the support so that the reinforcement 160 can maintain the correct position in the casing 110 It performs the function.

In the step (S 60), the reinforcement 160 is placed in the additional excavation ball so as to be located in the center of the casing 110, the lower end of the reinforcement 160 to the concrete (C) is placed in the additional excavation ball Intrusive.

When the installation of the reinforcement supporter 140 is completed, the reinforcement supporter 140 is passed through the reinforcement supporter 140 to be inserted into the excavation hole, so that the tip portion of the reinforcement member 160 is inserted into the other end of the concrete (C). At this time, if the curing of the concrete is in progress, the penetration of the front end of the reinforcement (160) concrete (C) is difficult, the above-described casing support 130 to install the reinforcement support 140 must be completed quickly.

In the step (S 70), the reinforcement 160 cures the concrete (C) of the additional excavation ball for a predetermined time in a fixed state by the reinforcement support 140.

In the step (S 80), when the curing of the concrete (C) of the excavation ball is completed, after dismantling the reinforcement support 140, the casing support 130 and the out casing 120, the casing ( While drawing 110, the concrete (C ') is poured into the excavation ball through the tremy (T).

Finally, the step (S 90) to cure the concrete (C ') to complete the pile.

8 is a diagram illustrating a modified example of the out casing, and the shape of the out casing 120 'may be modified.

As described above, in the present invention, the casing is firmly supported at the correct position by the out casing, and the reinforcement is fixed at the correct position and firmly supported by the connecting member connecting the reinforcing member support and the out casing, so that the steel reinforcement is piled up. It can be stably intruded into the tip-casting concrete to improve the construction accuracy of site-casting piles, and can secure structural stability, simplify the process, shorten the air, and significantly reduce the material. .

B: Bolt
C, C ': Concrete
G: surface
T: Tremi
110: casing
120: out casing
130: casing support
140: stiffener support
150: connecting member
160: reinforcement
200: excavator

Claims (4)

Reinforcement 160 is embedded in the site-pouring pile method, the concrete (C) is placed in the lower part of the excavation ball, the curing of the end portion of the reinforcement 160 is buried at the bottom, after curing, the casing (110) In the site-placement pile construction method to finish the pile by placing concrete (C ') in the remaining portion of the excavation ball with the) installed,
An out casing 120 is installed in the ground, and the out casing 120 is in close contact with the outside of the casing 110 to penetrate the casing 110 to prevent movement of the casing 110. And drilling the excavation device 200 to form an excavation ball (S 10);
When the excavation of the excavation ball reaching the planned depth is completed, the casing support 130 is installed at the upper end of the outer peripheral surface of the casing 110 exposed to the ground surface G, and the casing support 130 is the upper end of the out casing 120. Coupled to the step of dispersing the weight of the casing (110) on the ground (G) to prevent settlement of the casing (110) (S 20);
Drilling an excavation device 200 to form additional drilling holes having a predetermined depth or less (S 30);
When the additional excavation hole formation is completed, withdrawing the excavation device 200, and placing part of the concrete (C) to the pile tip portion through the tremy (T) in a state of fixing the casing 110 ( S 40);
A reinforcing member supporter 140 having a “b” shape is installed on the casing 110, and the “c” shaped channel connection is performed between the out casing 120 and the reinforcing member supporter 140 with a bolt B. Fastening the member 150 (S 50);
Inserting a reinforcing material (160) into the additional drilling hole so as to be located at the center of the casing (110) so that the lower end of the reinforcing material (160) is introduced into the concrete (C) placed in the additional drilling hole (S 60);
Curing the concrete (C) of the additional excavation ball in a state where the upper end of the reinforcement member 160 is fixed by the reinforcement support member 140 (S 70);
When the curing of the concrete (C) of the excavation ball is completed, after dismantling the reinforcing member support 140, the casing support 130 and the out casing 120, while pulling out the casing (110) Pouring concrete (C ′) inside the excavation ball through T) (S 80); And
Step (S 90) to finish the pile by curing the concrete (C '); reinforcement in-situ site casting pile construction method characterized in that consisting of. delete delete delete

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