KR102138366B1 - Pile with reinforced tip and its construction method thereof - Google Patents

Abstract

Disclosed is a tip reinforcement file manufactured using a double pipe tip reinforcement and a construction method therefor. The tip reinforcement pile is combined with the bottom of the ready-made pile, the inner steel pipe formed to correspond to the inner diameter or outer diameter of the daily pile; And an outer steel pipe spaced apart from the inner steel pipe at a predetermined interval and formed to surround the outer circumferential surface of the inner steel pipe, wherein the bottom surface of the double pipe tip reinforcement portion is opened to pass through the slime remaining on the bottom surface (G) of the excavation ground. By doing so, it is directly supported on the bottom surface G of the excavation.

Description

PIPE WITH REINFORCED TIP AND ITS CONSTRUCTION METHOD THEREOF}

The present invention relates to a tip reinforcement file manufactured using a double pipe tip reinforcement and a construction method thereof, more specifically, by forming a double pipe tip reinforcement coupled to the lower end of the ready-made pile, improving vertical support and securing structural safety, The present invention relates to a tip reinforcement file manufactured using a double pipe tip reinforcement and a construction method thereof.

The pile foundation is a foundation that is installed by the type pile method, the purchase pile method, and the field pile method when a high-quality support layer such as a rock layer is deep in the ground.

The type pile method is a method in which ready-made piles are directly hit on the ground to be purchased, and the purchase pile method is a method of forming a perforated hole in the ground and then buying a ready-made pile in the perforated hole. This is a method of producing reinforced concrete by pouring it into the excavated hole.

The purchase pile method is a method developed to reduce construction pollution, such as noise and vibration, by pre-drilling the ground and placing the ready-made pile into the ground. After the steel pipe pile or PHC pile is vertically purchased in the excavated ground Steel pipe piles are fixed by injecting cement paste.

After the steel pipe pile or PHC pile is purchased, the bearing capacity of the pile supported in the ground is greatly influenced by the tip supporting force determined by the effective cross-sectional area of the tip. Therefore, the expansion of the effective area of the tip is reflected as a very important design factor in the steel pipe pile for the purchase pile method.

However, when a steel pipe pile or PHC pile for the purchase pile method is purchased into the ground, when the tip portion supporting the steel pipe pile or PHC pile in the ground is supported on the slime generated during excavation, the bearing capacity of the steel pipe pile or PHC pile is weakened. There was a problem.

That is, if the slime precipitated after excavation is not removed, there is a problem in that the strength of the concrete is lowered, the leading force of the pile is lowered, and the result is accompanied by displacement in the superstructure due to settlement.

Here, Slime refers to the bentonite used to prevent the collapse of the wall during excavation and the residue that remains on the bottom of the excavation and is not discharged to the ground during excavation.

In order to solve the problem of such a pile pile method, Patent No. 10-1075922 discloses a steel pipe pile for a pile pile method with a reinforced tip.

The steel pipe pile for the purchase pile method, as shown in FIG. 1, combines a hollow disc-shaped flange 20 in the horizontal direction to the lower end of the steel pipe pile 10 to increase the effective cross-sectional area supported by the steel pipe pile in the ground to increase the tip supporting force. It has the advantage of improving and forming the pores in the flange to compact the slime generated during excavation.

However, the flange 20 of the steel pipe pile for the embedded pile method can not only remove the slime even if the pore 22 is formed, but even if the slime is compacted because the flange is still located on the top of the slime There has been a problem that the tip supporting capacity of the pile is deteriorated in the long term for reasons such as compaction.

Moreover, in the case of high-strength ready-made piles and large-diameter ready-made piles, there is a problem in that it is difficult to secure a supporting force capable of coping with the proof load, and thus the efficient use of materials is not achieved.

In addition, the steel pipe pile 10 for the buried pile method is formed by simply forming an empty space 12 between the outer tube 30 and the steel tube 10, even if the slime is settled as the empty space, the effect of improving the bearing capacity of the steel pipe pile In addition, there was a problem that structural stability between the outer tube and the steel tube was deteriorated.

(Priority Patent Document 0001) Korean Registered Patent No. 10-1075922 (Name of invention: Steel pipe pile for the purchase pile method with reinforced tip, Publication date: 2010.07.06)

The present invention has been devised to solve the problems of the prior art as described above, and the tip supporting force is improved by forming the double pipe tip reinforcement portion supported on the hard ground by passing through the slime, and the shear connecting material and cement paste inside the double pipe tip reinforcement portion The stiffener is constructed using a double-pipe stiffener and capable of additionally securing the tip stiffness, as well as uniformly transmitting the load of the upper pile to the ground by closing the tip and forming a closed pile by synthesizing the filler as described above, and its construction Let's try to solve the provision of methods.

In addition, as another means for accomplishing the above problem, in the tip reinforcement pile is fixedly supported on the tip portion of the ready-made pile with a through hole at the center and an open tip portion,

A double pipe tip reinforcement portion formed at a lower portion of the tip reinforcement pile, an inner steel pipe combined with a lower end of the ready-made pile and formed to correspond to an outer diameter of the ready-made pile; And an outer steel pipe spaced apart from the inner steel pipe at a predetermined interval and formed to be smaller than the length of the inner steel pipe to surround the outer circumferential surface of the lower portion of the inner steel pipe. By passing through the slime (S) remaining on the bottom surface (G) is directly supported on the bottom surface (G) of the excavated ground, the outer steel pipe is formed to correspond to the height of the slime (S),
Includes a shear connector formed radially inside or outside of the inner steel pipe; and a steel pipe connecting material connecting the inner steel pipe and the outer steel pipe; and a reinforcing rib fixed radially at an upper end of the inner steel pipe; The ready-made pile connected to the part is filled with a filling material in a casing to a predetermined height, and then inserted into the casing, so that the double pipe tip reinforcement part forms a closed end by the filling material.

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As another means for solving the above-mentioned problems, a method of constructing a tip reinforcement file manufactured using a double pipe tip reinforcement part includes: (a) drawing an excavation device from an inserted casing spaced apart at a predetermined interval from an excavation hole; (b) filling a filling material with a predetermined height into the casing where the bottom is supported on the bottom surface G of the excavation ground; (c) inserting a tip reinforcement file manufactured using a double pipe tip reinforcement portion and a ready-made pile into the casing filled with the filling material;

(d) additionally pouring a filling material inside the casing and between the casing and the excavation hole and drawing the casing; And (e) by hitting the upper portion of the tip reinforcement file manufactured using the double pipe tip reinforcement, so that the double pipe tip reinforcement penetrates through the slime (S) and is directly supported on the bottom surface (G) of the excavation ground. Including the step of additionally injecting the filler using the injection device to the portion where the slime (S) is formed;
The double pipe tip reinforcement part of step (c) is formed at the bottom of the tip reinforcement pile, is coupled to the lower end of the ready-made pile, the inner steel pipe formed to correspond to the outer diameter of the ready-made pile; And an outer steel pipe spaced apart from the inner steel pipe at a predetermined interval and formed to be smaller than the length of the inner steel pipe to surround the outer circumferential surface of the lower portion of the inner steel pipe. By passing the slime (S) remaining on the bottom surface (G) is directly supported on the bottom surface (G) of the excavation ground, the outer steel pipe is formed to correspond to the height of the slime (S), the inner side of the inner steel pipe Or a shear connector formed radially outward; and a steel pipe connecting material connecting the inner steel pipe and the outer steel pipe; and a reinforcing rib fixed radially at an upper end of the inner steel pipe; and a ready-made pile connected to the double pipe tip reinforcement portion After filling the silver casing with a predetermined height, it is inserted into the casing, so that the double pipe tip reinforcement portion forms a closed end by the filler in step (b).

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According to the present invention, the inner and outer steel pipes are spaced at predetermined intervals to stably support the ready-made piles, and the upper and lower portions are formed of hollow pipes that communicate with each other, so that the lower end of the double pipe tip reinforcement portion passes through the slime to excavate the ground. It is formed to be directly supported on the surface.

Accordingly, the present invention can solve the problem that the bearing capacity is weakened by the slime by preventing the slime between the double pipe tip reinforcement part and the bottom surface of the excavation, and it is possible to solve the problem of additional settlement, which is very structurally very safe. The end reinforcement file produced by using the double pipe end reinforcement is formed.

In addition, according to the present invention, by filling a filler such as a cement paste inside the double pipe tip reinforcement part, the closed pile is formed to evenly transmit the load of the ready-made pile to the ground, while further improving the tip supporting force.

In addition, according to the present invention, the double pipe tip reinforcement portion is formed of an inner steel pipe and an outer steel pipe, so that the tip extension is very easy to secure design support. In particular, when used in high-strength ready-made piles and large-diameter ready-made piles, it is possible to secure a bearing capacity that can cope with the load resistance, and a tip reinforcement file manufactured using a structurally stable double pipe tip reinforcement portion is formed.

1 is a cross-sectional view of a steel pipe pile for a ready-made pile method with a reinforced tip according to the prior art.
2A and 2B are cross-sectional and excerpt perspective views of a tip reinforcement file manufactured using a double tube tip reinforcement according to an embodiment of the present invention;
3a and 3b is a perspective view and a cross-sectional view of the tip reinforcement pile and the PHC pile manufactured using a double pipe tip reinforcement according to an embodiment of the present invention,
Figure 3c and 3d is a perspective view and a cross-sectional view of the tip reinforcement pile and the steel pipe pile manufactured using a double pipe tip reinforcement according to an embodiment of the present invention,
4A and 4B are cross-sectional view and excerpt perspective views of a tip reinforcement file manufactured using a double pipe tip reinforcement according to another embodiment of the present invention,
5 is a construction flow chart of a method of constructing a tip reinforcement file manufactured using a double pipe tip reinforcement according to an embodiment of the present invention,
6 shows a construction flow chart of a method of constructing a tip reinforcement file manufactured using a double pipe tip reinforcement according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains may easily practice. However, the present invention can be implemented in many different forms and is not limited to the embodiments described herein. In addition, in order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and like reference numerals are assigned to similar parts throughout the specification.

Throughout the specification, when a part “includes” a certain component, it means that the component may further include other components, not to exclude other components, unless otherwise stated.

[Tip reinforcement file manufactured using double pipe tip reinforcement (100a) (Example 1)]

In the first embodiment, in the tip reinforcement file manufactured using the double pipe tip reinforcement portion 100a, the double pipe tip reinforcement portion 100a and the ready-made piles 200,300 such as PHC piles and piles such as steel pipe piles are connected. can do.

First, in the tip reinforcement file manufactured using the double pipe tip reinforcement portion of the present invention, a configuration in which the tip reinforcement file is connected to the PHC file 200 as a ready-made pile will be described.

Accordingly, FIGS. 2A and 2B are cross-sectional and partially excerpted perspective views of a tip reinforcement file manufactured using a double pipe tip reinforcement according to an embodiment of the present invention, and FIGS. 3A and 3B are double pipe tip according to an embodiment of the present invention. It is a perspective view and a cross-sectional view showing the coupling of the reinforcement part and the PHC pile.

2A, 2B, 3A, and 3B, the tip reinforcement pile and the PHC pile manufactured using the double pipe tip reinforcement according to an embodiment of the present invention, and the bottom portion of the PHC pile 200 which is a ready-made pile It can be seen that the upper end portion of the double pipe tip reinforcement portion 100a is connected and fixed, and the lower portion of the double pipe tip reinforcement portion 100a is supported on the bottom surface G of the excavation ground.

First, the double pipe end reinforcement portion 100a is formed to include an inner steel pipe 110a, an outer steel pipe 120a, a shear connecting material 130a, a steel pipe connecting material 140a, and a reinforcing rib 150a.

The inner steel pipe (110a) is coupled to the lower end of the ready-made pile 200 and a fastener not shown, and is formed to have an inner diameter corresponding to the inner diameter of the ready-made pile PHC pile (200).

However, it is of course possible that the inner diameter of the inner steel pipe 110a is larger or smaller than the inner diameter of the ready-made pile 200.

Reinforcing ribs 150a are formed at the upper portion of the inner steel pipe 110a and the upper end of the outer steel pipe 120a, that is, the connecting portion, so that the ready-made pile 200 is stably supported by the double pipe tip reinforcement portion 100a.

The inner steel pipe 110a is formed as a hollow pipe so that the upper and lower parts are opened, and a shear connecting material 130a is formed inside the inner steel pipe 110a. In addition, the inner steel pipe 110a is fixedly connected to the outer steel pipe 120a by a steel pipe connecting material 140a.

The outer steel pipe 120a is formed to be spaced apart at a predetermined interval in the transverse direction from the inner steel pipe 110a, and is formed to surround the outer circumferential surface of the inner steel pipe 110a.

Preferably, the separation distance between the outer steel pipe (120a) and the inner steel pipe (110a) is formed to be larger than the cross-sectional thickness of the ready-made pile 200, so that the double pipe end reinforcement (100a) is to support the ready-made pile 200 stably can do.

That is, the outer steel pipe 120 is formed based on the same central axis as the inner steel pipe 110a, and the shape of the cross section is formed to form a concentric circle shape with the inner steel pipe 110a.

The outer steel pipe 110a is formed to have a smaller height than the inner steel pipe 110a, and a reinforcing rib 150a may be radially formed between the outer steel pipe 120a and the upper separation space of the inner steel pipe 110a.

However, it is of course possible to form the same heights of the outer steel pipe 120a and the inner steel pipe 110a so that the ready-made pile 200 is supported by the outer steel pipe 120a and the inner steel pipe 110a.

The outer steel pipe 120a is also formed as a hollow pipe, like the inner steel pipe 110a, so that the upper and lower parts are opened. As described later, a filling material 500 such as cement paste is poured into the inner space between the outer and inner steel pipes, and is formed of closed piles, not open piles.

That is, the ready-made pile 200 connected to the double pipe tip reinforcement portion 100a is filled in the casing 400 with a filling material 500 at a preset height, and then inserted into the casing 400, so that the double pipe tip reinforcement portion 100a is The closed end is formed by the filling material 500.

The inner steel pipe 110a and the outer steel pipe 120a of the present invention are spaced apart at predetermined intervals and synthesized by the filling material 500 to stably support the ready-made piles, while the upper and lower parts are formed as open hollow pipes, thereby strengthening the double pipe tip reinforcement. The bottom surface of the portion penetrates the slime S and is formed to be directly supported on the bottom surface G of the excavation ground.

Accordingly, the present invention can solve the problem that the bearing capacity is weakened by the slime by preventing the slime between the double pipe tip reinforcement part and the bottom surface (G) of the excavation ground, and can solve the problem of additional settlement, which is very structural. As a result, a very safe tip reinforcement file is formed.

In addition, the present invention is filled with a filler 500 inside the double pipe tip reinforcement to harden it, thereby forming a closed pile and evenly transmitting the load of the ready-made pile to the ground, while further improving the tip support.

In addition, according to the present invention, the double pipe tip reinforcement portion is formed of an inner steel pipe and an outer steel pipe, so that the tip extension is very easy and a structurally stable double pipe tip reinforcement portion is used to form a tip reinforcement file.

The shear connecting materials 130a: 131a, 133a, and 135a are formed inside or outside of the inner steel pipe 110a to increase the bonding force between the pouring filler 500 and the inner steel pipe 110a.

That is, the shear connection material (131a) is formed of a plurality of steel bars may be formed to be fixed to the inner circumferential surface of the inner steel pipe (110a) in the same manner as welding, penetrates through the inner steel pipe (110a), the outer circumferential surface of the inner steel pipe (110a) It can be formed to be fixed or bent and welded.

Referring to Figure 3a, it can be seen that the shear connecting material (131a) is formed of a plurality of can be formed to have a length corresponding to the diameter of the inner steel pipe (110a) or smaller than the diameter.

In addition, the other shear connecting material 133a may be formed to penetrate the inner steel pipe 110a and protrude to the outside of the inner steel pipe 110a with a predetermined length.

In addition, the other shear connecting member 135a may be formed to protrude partially into the inside and outside of the inner steel pipe 110a, but to be radially disposed.

Referring to Figure 2b, it can be seen that the shear connecting member (135a) can be formed in a radial number between the steel pipe connecting member (140a).

Accordingly, the present invention can easily solve the occurrence of sliding between the filler and the pile, such as the cement paste, which was a problem in the prior art, by easily forming the closed pile by increasing the bonding force between the shear connecting material and the cement paste, as well as loading the ready-made pile. Can be evenly delivered to the ground.

The steel pipe connecting material 140a has a function of connecting the inner steel pipe 110a and the outer steel pipe 120a and a function of enhancing the synthesis of the filling material.

That is, the steel pipe connecting material 140a is formed radially to correspond to the separation distance between the inner steel pipe 110a and the outer steel pipe 120a at the upper and lower parts of the outer steel pipe 120a, and the inner steel pipe 110a is easily welded or the like. And the external steel pipe 120a can be fixed.

The steel pipe connecting material 140a may be formed in a rectangular cross-section, and of course, may be formed in the form of a bolt such as a stud bolt, so that the filling material 500 is not blocked.

The reinforcing rib 150a is radially fixed to the upper end of the outer steel pipe 120a and the upper side of the inner steel pipe 110a, as shown in FIGS. 2A and 2B.

The reinforcing ribs 150a include a radially formed vertical stiffener 151a and an upper horizontal stiffener 155a and a lower horizontal stiffener 153a formed above and below the vertical stiffener 151a.

The vertical reinforcing material (151a) is formed in the lower light negotiation, a plurality of radially disposed along the outer peripheral surface of the upper portion of the inner steel pipe (110a).

The lower horizontal reinforcement plate 153a is formed of a plate material, and is fixedly coupled to the upper part of the steel pipe connecting material 140a and the upper end of the external steel pipe 120a.

The upper horizontal reinforcement plate 155a is formed so that the ready-made pile 200 comes into contact and is fastened by a fastening part not shown.

On the other hand, although not shown, the reinforcing rib 150a is formed of only the lower horizontal reinforcing plate 153a and the vertical reinforcing member 151a without the upper horizontal reinforcing plate 155a being formed, and the lower end of the ready-made pile 200 is a steel pipe connecting material. It may be formed to be formed on the upper portion of (140a). In this case, the reinforcing rib 150a can stably support the ready-made pile 200 by a fastening member such as a bolt in contact with the lower surface of the ready-made pile 200.

Next, in the tip reinforcement pile manufactured using the double pipe tip reinforcement portion of the present invention, a configuration in which the tip reinforcement pile is connected to a steel pile such as the steel pipe pile 300 will be described as a ready-made pile.

3C and 3D are perspective and cross-sectional views of a tip reinforcement pile and a steel pipe pile manufactured using a double pipe tip reinforcement according to an embodiment of the present invention.

Referring to FIG. 3C, it can be seen that the tip reinforcement file manufactured using the double pipe tip reinforcement according to an embodiment of the present invention is connected to the double pipe tip reinforcement 100a with the steel pipe pile 300.

A tip reinforcement file manufactured using a double pipe tip reinforcement portion connected to a steel pipe pile according to an embodiment of the present invention has a configuration in which the configuration is mostly made using a double pipe tip reinforcement portion connected to a PHC file according to an embodiment of the present invention. It is the same as the reinforcement file. Therefore, a description will be given focusing on different configurations.

The double pipe tip reinforcement portion 100a connected to the steel pipe pile according to an embodiment of the present invention is upper than the double pipe tip reinforcement portion connected to the PHC pile according to an embodiment of the present invention as described above. It can be seen that it is formed to protrude further. The inner steel pipe 110a and the steel pipe pile 300 may be fixedly formed by welding or the like using the upper surface of the inner steel pipe protrusion 111a.

Accordingly, it can be seen that the reinforcing members 150a: 151a and 153a are formed between the outer circumferential surface of the inner steel pipe protrusion 111a and the upper surface of the outer steel pipe 120a.

However, although not shown, the height of the inner steel pipe 110a is the same as the outer steel pipe 120a, so that the steel pipe pile 300 can be formed to be fixedly coupled to the upper portion of the steel pipe connecting material 140a.

[Tip reinforcement file manufactured using double pipe tip reinforcement (100b) (Example 2)]

In the second embodiment, in the tip reinforcement file manufactured using the double pipe tip reinforcement portion 100b, the double pipe tip reinforcement portion 100b and the ready-made piles 200,300 such as PHC pile and steel pipe pile are connected. can do.

4A and 4B show cross-sectional and excerpt perspective views of a tip reinforcement file manufactured using a double tube tip reinforcement according to Example 2 of the present invention.

The tip reinforcement file produced using the double pipe tip reinforcement according to the second embodiment of the present invention corresponds to the tip reinforcement file manufactured using the double pipe tip reinforcement according to the first embodiment of the present invention. Accordingly, a corresponding member number was assigned to a corresponding configuration.

Referring to Figures 4a and 4b, the lower end of the ready-made pile (200,300) and the upper end of the double pipe tip reinforcement part (100b) is connected and fixed, the double pipe tip reinforcement part (100b) is the lower end of the excavation ground bottom surface (G) You can see that it is supported.

The double pipe end reinforcement portion 100b includes an inner steel pipe 110b, an outer steel pipe 120b, a shear connecting material 130b, a steel pipe connecting material 140b, and a reinforcing rib 150b.

The inner steel pipe (110b) is coupled by the lower end of the ready-made pile (200,300) and a fastening part not shown, it is formed as a hollow tube is formed to open the upper and lower parts. A shear connecting material 130b is formed inside the inner steel pipe 110b, and the inner steel pipe 110b and the outer steel pipe 120b are connected and fixed by the steel pipe connecting material 140b.

The inner steel pipe 110b is formed to have an inner diameter corresponding to the outer diameter of the ready-made piles 200 and 300. However, it is of course possible that the inner diameter of the inner steel pipe 110b is larger or smaller than the outer diameter of the ready-made piles 200 and 300.

Referring to FIG. 4A, a reinforcement rib 150b may be continuously formed along the circumference or may be formed to be spaced apart at a predetermined interval along the circumference at the upper inner side of the inner steel pipe 110b. Thus, the inner steel pipe 110b and the double pipe tip reinforcement portion 100b are reinforced by the reinforcing ribs 150b, so that the ready-made piles 200 and 300 are stably supported by the double pipe tip reinforcement portion 100b.

Meanwhile, FIG. 4B illustrates that the steel pipe pile 300 is combined with the double pipe tip reinforcement portion 100b, and shows that the reinforcing rib 150b is not formed, but the inner diameter of the steel pipe pile 300 has an inner steel pipe ( If it is larger than the inner diameter of 110b), a reinforcing rib 150b may be formed.

The outer steel pipe 120b is formed to surround the outer circumferential surface of the inner steel pipe 110b under the inner steel pipe 110b. Preferably, the separation distance between the outer steel pipe (120b) and the inner steel pipe (110b) is formed to be larger than the cross-sectional thickness of the ready-made pile (200,300), so that the double pipe tip reinforcement (100b) is to support the ready-made pile (200,300) stably Is done.

The outer steel pipe 120b is also formed as a hollow pipe, like the inner steel pipe 110a, so that the upper and lower portions are opened. Thus, a filler 500, such as a cement paste, is poured into the inner space between the outer and inner steel pipes to form a closed pile rather than an open pile.

The outer steel pipe 120b according to the second embodiment of the present invention is formed to have a lower height than the outer steel pipe 120a according to the first embodiment of the present invention. That is, when the height of the outer steel pipe 120b is stably supported by the ready-made piles 200 and 300 by the outer steel pipe 120b and the inner steel pipe 110b, the slime S penetrates the double pipe tip reinforcement portion 100b. Between the outer steel pipe (120b) and the inner steel pipe (110b) may be formed to a height high enough to accommodate the slime (S).

Accordingly, the present invention can solve the problem that the bearing capacity is weakened by the slime by preventing the slime between the double pipe tip reinforcement part and the bottom surface (G) of the excavation ground, and can solve the problem of additional settlement, which is very structural. As a result, a very safe tip reinforcement file is formed.

In addition, the present invention is filled with a filler 500 inside the double pipe tip reinforcement to harden it, thereby forming a closed pile and evenly transmitting the load of the ready-made pile to the ground, while further improving the tip support. In addition, according to the present invention, the double pipe tip reinforcement portion is formed of an inner steel pipe and an outer steel pipe, so that the tip extension is very easy and a structurally stable double pipe tip reinforcement portion is used to form a tip reinforcement file.

In addition, the present invention is formed such that the longitudinal length of the outer steel pipe is smaller than that of the inner steel pipe, so that the double pipe tip reinforcement portion is light, thereby improving workability and manufacturing cost, thereby improving economic efficiency.

The shear connection material 130b is formed to be formed inside or outside the inner steel pipe 110b to enhance the bonding force with the pouring material 500.

The shear connection material 130b is formed of a plurality of steel bars and is formed to be fixed to the inner circumferential surface of the inner steel pipe 110b by welding or a fastening device, or penetrates the inner steel pipe 110b to settle or bend the outer circumferential surface of the inner steel pipe 110b. It can be formed to be welded.

On the other hand, although not shown, the shear connecting material 130b is formed between the inner steel pipe 110b and the outer steel pipe 120b, thereby increasing the bonding force between the inner steel pipe 110b and the outer steel pipe 120b.

Accordingly, the present invention can easily solve the occurrence of sliding between the filler and the pile, such as the cement paste, which was a problem in the prior art, by easily forming the closed pile by increasing the bonding force between the shear connecting material and the cement paste, as well as loading the ready-made pile. Can be evenly delivered to the ground.

The steel pipe connecting material 140b has a function of connecting the inner steel pipe 110b and the outer steel pipe 120b and a function of enhancing the synthesis of the filling material.

The steel pipe connecting material 140b may be formed radially to correspond to the separation distance between the inner steel pipe 110b and the outer steel pipe 120b on the upper portion of the outer steel pipe 120b, and the inner steel pipe 110b and the outside by a method such as welding. The steel pipe 120b can be fixed.

The steel pipe connecting material 140b may be formed in a rectangular cross section of the lower light negotiation, and of course, it may be formed in a bolt shape such as a stud bolt.

The reinforcing ribs 150b are formed to support the ready-made piles 200 and 300 on the upper inner surface of the inner steel pipe 110b.

The reinforcing ribs 150b may be radially spaced apart at predetermined intervals along the inner circumferential surface of the inner steel pipe 110b, but can also be formed integrally.

[Method of constructing a tip reinforcement file manufactured using a double pipe tip reinforcement (Example 1)]

5 is a view showing the construction procedure of the tip reinforcement file produced using a double pipe tip reinforcement (100a) according to an embodiment of the present invention.

Referring to FIG. 5, first, a ground is excavated by a drilling apparatus 600 to a design depth to a planned ground to form an excavation hole 700, and a casing inserted spaced apart from the excavation hole 700 at a preset interval ( 400, the excavation device 600 is drawn.

In this case, the excavation device 600 may be inserted into the casing 400 to excavate the ground, and after forming the excavation hole 700 with only the excavation device 600, the casing 400 is inserted into the excavation hole 700. It is, of course, possible.

The casing 400 may be formed to contact the excavation hole 700 in order to maintain the wall of the excavation hole 700, but preferably, the casing 400 is formed to be spaced apart from the excavation hole 700 at a predetermined interval. do.

In this case, a slime S may be formed at a predetermined height at a lower end of the casing 400 and a lower portion of the excavation hole 700.

Next, the filling material 500 is filled with a predetermined height into the casing 400 in which the lower end is supported on the bottom surface of the excavation ground G and the slime S.

Next, the tip reinforcement file in which the double pipe tip reinforcement portion 100a and the ready-made piles 200 and 300 are connected is inserted into the casing 400 filled with the filler 500 according to the planned height.

Accordingly, the uncured filler 500 rises to a predetermined height inside the casing 400 according to the volume of the tip reinforcement pile.

In addition, it can be seen that the casing 400 and the tip reinforcement pile are formed to be spaced apart at predetermined intervals, and the tip reinforcement pile is formed on the upper portion of the slime S.

Next, the filling material 500 is additionally poured into the casing 400 and the spaced parts of the casing 400 and the excavation hole 700, and the casing 400 is drawn from the excavation hole 700.

Thus, the filler 500 is filled to the top of the excavation hole 700.

Next, the upper end of the ready-made pile (200,300) will be struck by a hammer (not shown) formed in the excavation device (600).

Thus, the ready-made pile 200 connected to the double pipe tip reinforcement portion 100a is filled into the casing 400 with the filling material 500 at a preset height, and then inserted into the casing 400, so that the double pipe tip reinforcement portion 100a is The closed end is formed by the filling material 500.

In addition, the inner steel pipe 110a and the outer steel pipe 120a of the present invention are spaced apart at predetermined intervals to stably support the ready-made piles, while being formed of hollow pipes in which the upper and lower parts are communicated, the lower end of the double pipe tip reinforcement portion is slime (S ) To be directly supported on the excavated ground bottom surface (G).

Next, the filler 500, such as cement paste, is additionally injected into the bottom of the tip reinforcement pile using the injection device 800 to the lower portion of the tip reinforcement pile, that is, the portion where the slime S is formed, and mixed with the slime S As a result, the lower part of the tip reinforcement file is rigid with one structure.

Accordingly, the present invention can solve the problem that the bearing capacity is weakened by the slime by preventing the presence of a slime between the double pipe tip reinforcement part and the bottom surface (G) of the excavation ground, and it is possible to solve the problem of additional settlement and very structural. As a result, a very safe tip reinforcement file is formed.

In addition, according to the present invention, the cement paste is placed inside the double pipe tip reinforcement portion, thereby forming a closed pile and transmitting the load of the ready-made pile evenly to the ground, while further improving the tip supporting force.

In addition, according to the present invention, since the double pipe tip reinforcement portion is formed of an inner steel pipe and an outer steel pipe, the tip extension is very easy, and a structurally stable tip reinforcement pile is formed.

[Method of constructing a tip reinforcement file manufactured using a double pipe tip reinforcement (Example 2)]

6 is a view showing the construction procedure of the tip reinforcement file manufactured using the double pipe tip reinforcement 100b according to another embodiment of the present invention.

Construction procedure of the end reinforcement file manufactured using the double pipe end reinforcement 100b according to another embodiment of the present invention is constructed in accordance with the embodiment of the present invention. Same as order. Therefore, detailed description is omitted.

The above description of the present invention is for illustration only, and those skilled in the art to which the present invention pertains can understand that it can be easily modified to other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present invention is indicated by the following claims rather than the above detailed description, and it should be interpreted that all changes or modified forms derived from the meaning and scope of the claims and equivalent concepts thereof are included in the scope of the present invention. do.

100a, 100b: Double pipe tip reinforcement
110a,110b: inner steel pipe
120a, 120b: External steel pipe
130a, 130b: shear connector
140a, 140b: Steel pipe connecting material
150a, 150b: reinforcement rib
200, 300: ready-made pile
400: casing
500: cement paste
600: drilling rig
700: Excavator
800: injection device
G: Excavation surface S: Slime

Claims (5)

In the end reinforcement pile is fixedly supported at the front end of the ready-made pile (200,300) through the center and open the front end,
The double pipe tip reinforcement portion (100b) formed at the bottom of the tip reinforcement pile,
An inner steel pipe 110b coupled to the lower ends of the ready-made piles 200 and 300 and formed to correspond to the outer diameter of the ready-made piles 200 and 300; And an outer steel pipe (120b) spaced apart from the inner steel pipe (110b) at a predetermined interval and formed to be smaller than the length of the inner steel pipe (110b) to surround the outer peripheral surface of the lower portion of the inner steel pipe (110b). ,
The double pipe tip reinforcement part 100b is directly supported by the bottom surface G of the excavation ground by passing through the slime S remaining on the bottom surface G of the excavation ground with the bottom surface open, and the outer steel pipe 120b It is formed to correspond to the height of the slime (S),
Shear connector 130b formed radially inside or outside the inner steel pipe 110b; and steel pipe connecting material 140b connecting the inner steel pipe 110b and the outer steel pipe 120b; and the inner steel pipe 110b It includes; a reinforcing rib (150b) that is fixed to the upper end of the radial, and the ready-made pile (200,300) connected to the double pipe end reinforcement, after filling the casing (400) with a filling material (500) at a predetermined height, the casing ( 400), the double pipe tip reinforcement portion 100b is a tip reinforcement file manufactured using a double pipe tip reinforcement portion forming a closed end by a filler 500. delete delete (a) drawing the excavation device 600 from the inserted casing 400 spaced apart from the excavation hole 700 at a predetermined interval;
(b) filling the filling material 500 with a predetermined height into the casing 400 having a lower end supported on a bottom surface G of the excavation ground;
(c) inserting a tip reinforcement file manufactured using a double pipe tip reinforcement portion 100b and a ready-made pile 200,300 into the casing 400 filled with the filling material 500;
(d) additionally pouring a filling material 500 between the casing 400 and between the casing 400 and the excavation hole 700 and drawing the casing 400; And
(e) By hitting the upper part of the tip reinforcement file manufactured using the double pipe tip reinforcement portion 100b, the double pipe tip reinforcement portion 100b penetrates the slime S to the excavation ground bottom surface G After being directly supported, the step of additionally injecting the filler 500 using the injection device 800 to the portion where the slime S is formed; includes,
The double pipe tip reinforcement portion 100b of step (c) is formed at the bottom of the tip reinforcement pile, is coupled to the lower end of the ready-made piles 200,300, and is formed to correspond to the outer diameter of the ready-made piles 200,300. (110b); And an outer steel pipe (120b) spaced apart from the inner steel pipe (110b) at a predetermined interval and formed to be smaller than the length of the inner steel pipe (110b) to surround the outer peripheral surface of the lower portion of the inner steel pipe (110b). , The double pipe end reinforcement (100b) is directly supported on the bottom surface of the excavation ground (G) by passing the slime (S) remaining on the bottom surface of the excavation ground (G) with the bottom surface open, the outer steel pipe (120b) Is formed so as to correspond to the height of the slime (S), and the shear connector 130b formed radially inside or outside the inner steel pipe 110b; and connecting the inner steel pipe 110b and the outer steel pipe 120b It includes; a steel pipe connecting material (140b); and a reinforcement rib (150b) that is radially fixed to the upper end of the inner steel pipe (110b); including, the ready-made pile (200,300) connected to the double pipe end reinforcement is a filler in the casing (400) After filling the 500 with a predetermined height, inserted into the casing 400, the double pipe tip reinforcement portion 100b uses a double pipe tip reinforcement portion forming a closed end portion by the filler 500 in step (b). A method of constructing a stiffener reinforcement file manufactured by using. delete

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