KR100374200B1 - Reinforcement method fot tip of still pile - Google Patents

Abstract

The present invention maintains the stiffness at the tip of the steel pipe which is driven vertically to the ground in order to support the load when constructing structures, such as various construction and civil engineering, and closely adhered to the outer peripheral surface of the pile in the ground To reinforce the end of steel pipe piles

That is, in the steel pipe pile to be constructed on the ground, a plurality of reinforcing members are provided on the upper and lower surfaces of the sealing plate to prevent deformation or damage at the distal end of the steel pipe pile, but having the same outer diameter as the outer diameter of the steel pipe pile. By welding and fixing the extension pipe integrally, the core is formed while the soil is introduced into the inner diameter part of the reinforcement pipe formed at the end of the steel pipe pile by the sealing plate while being hardened and tightly stiffened when the driving work is carried out. The contact surface is enlarged to improve the bearing capacity.

Description

Reinforcement method fot tip of still pile}

The present invention relates to a method for reinforcing the tip of a steel pipe pile, and more particularly, to maintain the strength at the tip of a steel pipe which is driven perpendicular to the ground to support the load when constructing structures such as various construction and civil engineering works. In addition, the present invention relates to a method of reinforcing the distal end portion of a steel pipe pile, which allows the steel pipe pile to be in close contact with the outer peripheral surface of the pile in the ground.

In general, in the case of structures that are subjected to very large loads, such as large buildings or bridges, the concrete or steel pipe piles were constructed as a part of the foundation work to be supported on a solid ground.

In the case of concrete piles, there were various limitations due to lengthening the concrete piles. Also, when hitting a hard strata, the tip portion is broken or the driving cannot be performed. In recent years, steel pipe piles are easy to manufacture and have high rigidity. The use of is common.

1 is a cross-sectional view showing a construction state of a general steel pipe pile, Figures 2a and 2b is an example of a conventional steel pipe pile and an example of the end portion breakage generated in the construction process, the steel pipe pile is constructed perpendicular to the ground ( In 1), in case of passing through the gravel layer or the hard layer (S), there were frequent cases of being crushed or damaged due to the impact on the tip.

Therefore, by applying a ring body (2) to reinforce the outer circumferential surface of the end of the steel pipe pile (1) to reduce the deformation, even when using the reinforcing ring body (2) deformation occurs inevitably, in particular steel pipe pile The gap (G) between the steel pipe pile and the ground caused by the ring body (2) protruding from the outer diameter of (1) was in contact with each other in a loose and loose state, there was a problem that can not secure the bearing capacity in close contact.

In addition, since the inner diameter of the conventional steel pipe pile is empty, the ground contacting the end of the steel pipe pile is not firmly solidified during the driving process, there is a problem that the support base is lowered.

The present invention has been invented to solve the above problems, the object of which is that the end of the steel pipe pile is integrally formed with a reinforcing member of the same outer diameter provided with a reinforcing member and a sealing plate at the end of the steel pipe pile end Prevents deformation or breakage and forms wedge-shaped cores by the ground to facilitate the piercing work of the steel pipe piles, and to closely contact the ground and the steel pipe piles and to reinforce the end portions of the steel pipe piles to increase the support area. To provide.

In order to achieve the above object, the present invention is a steel pipe pile which is constructed by driving the ground to support a structure that is subjected to very large loads such as a large building or a bridge on a solid ground, and deformed at the tip of the steel pipe pile Alternatively, a plurality of reinforcing members are provided on the upper and lower surfaces of the sealing plate to prevent breakage, and integrally welding and fixing the extension pipe having the same outer diameter as the outer diameter of the steel pipe pile, thereby forming the reinforcing pipe formed at the end of the steel pipe pile when driving. Soil flowing into the inner diameter of the block is blocked by the sealing plate is tightly formed while the core is formed, this core is characterized by improving the bearing capacity by expanding the contact surface with the ground.

1 is a cross-sectional view showing a construction state of a steel pipe pile installed in a general bridge,

Figure 2a and 2b is a perspective view showing an example of a conventional steel pipe pile, and a cross-sectional view showing a breakage example of the tip portion generated in the construction process of the steel pipe pile,

Figure 3 is an exploded perspective view showing a steel pipe pile of the embodiment of the present invention

Figure 4 is a cross-sectional view of the coupling state showing the steel pipe pile of the embodiment.

Figure 5 is a cross-sectional view showing the construction process of the steel pipe sheet according to the present invention.

<Description of Symbols for Major Parts of Drawings>

C: Core 10: Steel Pipe Pile

20: reinforcing pipe 21: sealing plate

22: reinforcing member

Hereinafter, the method of reinforcing the tip of the steel pipe pile of the present invention will be described with reference to the accompanying drawings.

Figure 3 is an exploded perspective view showing a steel pipe pile according to an embodiment of the present invention, Figure 4 is a cross-sectional view showing a coupling state of the steel pipe pile according to the present invention, the tip portion when driving the steel pipe pile 10 of the conventional type In order to prevent deformation or breakage, the reinforcing pipe 20 having the same outer diameter is welded (W) to be integrally joined, and the sealing plate 21 is formed to divide the inner circumferential surface of the reinforcing pipe 20 up and down, A plurality of reinforcing members 22 are respectively welded and fixed to the upper and lower portions of the sealing plate 21.

Reinforcement pipe 20 is combined as described above is to fix the weld (W) to the lower end of the steel pipe pile 10, the inner diameter is empty.

Therefore, when the steel pipe pile 10 is integrally formed on the ground when the reinforcing pipe 20 is integrally formed, the opposite stress from the ground is transmitted to the reinforcing pipe 20 welded to the distal end of the steel pipe pile 10. As you slowly get stuck.

That is, when the steel pipe pile 10 is driven, the earth and sand are introduced into the reinforcement pipe 20 formed at the distal end thereof, and the earth and sand are filled with the sealing plate 21 which is blocking the reinforcement pipe 20, thereby driving. It is firmly compacted from the part in contact with the closure plate 21 in proportion to the depth.

Subsequently, after the inner circumferential surface of the reinforcing pipe 20 blocked by the sealing plate 21 is firmly compacted, the rigid layer increases in the direction in which the reinforcing pipe 20 is driven by the driving depth of the steel pipe pile 10 and the stratified structure. Thus, a conical core C is formed, such as a form in which so-called stalactites grow.

The sealing plate 21 of the reinforcing pipe 20 which receives a very large earth pressure resistance during the driving process securely supports the sealing plate by the reinforcing force of the reinforcing pieces respectively formed on the upper and lower sides thereof, and also the lower side of the reinforcing pipe 20. When the soil is introduced into the interior guides to be more firmly compacted, and to enhance the durability of the tip of the steel pipe pile.

When the driving of the steel pipe pile 10 is completed, the conical core C formed at the bottom of the reinforcing pipe 20 acts to enlarge the contact area with the ground, thereby providing greater bearing capacity than when the steel pipe pile is simply driven. It can be obtained and driven in a state in which deformation and damage that can be applied to the tip of the steel pipe pile 10 are prevented.

For example, by integrally forming the reinforcement pipe 20 of the same outer diameter on the lower side of the steel pipe pile 10, the tip end portion of the steel pipe pile 10 by the formed core (C) that is naturally generated by the inflow of soil in the driving process Is to facilitate smooth construction through the gravel or hard strata, as well as to facilitate the construction of the steel pipe pile 10 and the ground will be in close contact with the steel pipe pile 10 is to improve the bearing capacity.

As described above, the present invention has the effect of preventing the deformation and breakage of the steel pipe pile during the driving operation by integrally welding and fixing the reinforcing pipe provided with the sealing plate and the reinforcing member at the tip of the steel pipe pile, steel pipe during driving As the soil is formed by using the opposite stress generated at the tip of the pile, the soil is solidly compacted. Therefore, when passing through the gravel or the hard strata, it is possible to smooth the driving work and improve the bearing capacity of the steel pipe pile. have.

Claims (1)

In the steel pipe pile 10, which is constructed by driving the ground as a foundation work so as to be supported on a solid ground when constructing a structure to which a very large load such as a large building or a bridge is applied, In order to prevent deformation or damage that is applied to the tip portion of the steel pipe pile 10 during welding, the reinforcing pipe 20 having the same outer diameter is welded (W) to be integrally joined, and the inner circumferential surface of the reinforcing pipe 20 is The sealing plate 21 is formed to be divided up and down, and each of the plurality of reinforcing members 22 is welded and fixed to the upper and lower portions of the sealing plate 21, and the steel pipe pile 10 is driven vertically to the ground. Method of reinforcing the tip of the steel pipe pile, characterized in that to form a conical core (C) by hardening the soil flowing into the inside of the reinforcing pipe (20) welded to the tip during construction.