KR20090000817U - A cast-in place pile using multi-piled up metal tubes - Google Patents

Abstract

The present invention relates to a cast-in-place pile using multiple overlapping perforated steel pipes, forming an elliptical through-hole in the longitudinal direction of the pipe and using a perforated steel pipe made of a plurality of steel pipes as a reinforcing material to resist the compressive force due to vertical load. It is to promote to the maximum.

To this end, the present invention, in order to prevent the subsidence of civil engineering, building structures in the construction site by filling the concrete in the drilled hole in the ground and inserting the steel pipe as a reinforcement, which is inserted into the interior of the site The reinforcement provides a cast-in-place pile consisting of multiple overlapping perforated steel pipes formed by multiple overlapping of multiple steel pipes having an elliptical through hole having a long axis in the longitudinal direction of the pipe and a short axis in the radial direction of the pipe. It can be easy to manage, which can reduce the cost of manpower and time.

Cast-in-place pile, perforated steel pipe, multiple, overlap, oval, through hole

Description

Cast-in place pile using multi-piled up metal tubes

The present invention relates to a cast-in-place pile using multiple overlapping perforated steel pipes, and more particularly, to use a perforated steel pipe formed by overlapping a plurality of steel pipes having an elliptical through-hole as a reinforcement material of the cast-in-place casting pile. By placing additional resistance against the vertical and horizontal forces acting on the cast-in-place pile, the cast-in-place pile using multiple overlapping perforated steel pipes to increase the compressive force on the axial and transverse sections of the cast-in-place pile It is about.

In general, pile foundations are used as foundations of structures to prevent ground subsidence in civil engineering and building structures, and the piles driven by piles in the ground using driving equipment and reinforcement materials such as reinforcing bars in the ground After the concrete is poured, or after the concrete is poured, it is classified as a site-casting pile into which the reinforcement is inserted.

In recent years, since the civil complaints increase in urban areas due to the increase in loads and construction depths, especially the noise and vibration problems due to the size of the structure, cast-in-placement piles have been preferred in recent years.

However, existing cast-in-place piles have low noise and can penetrate to the required depth required in the field, but problems due to securing of space and supply of equipment when assembling reinforcing bars applied as reinforcement for compression and shearing Due to the complicated process that occurs during the movement and construction, there are problems such as a lot of manpower, time and construction costs.

In addition, the reinforcement steel is not easy to control the number of holes to be applied and the design and construction of the cast-in-place piles are not easy to be applied. In addition, there is a disadvantage that the compression force against the vertical load of the cast-in-place pile is weak when the vertical pressure is applied.

In addition, the reinforcing steel rebar is manufactured by hand in the field, there is a concern that the problem occurs in the connection portion, and the defect rate is also high, there are disadvantages such as deformation when installing the rebar network.

On the other hand, conventionally, a reinforcing material technique using a perforated steel pipe 1 having a plurality of circular through holes 2 in place of the reinforcing bar network is known. As the perforated steel pipe is shown in Figure 1, by forming a plurality of circular through-holes (2) in the steel pipe consisting of a ring cross-section can be exhibited additional resistance compared to the reinforcing bar when the vertical force acts on the cast-in-place pile Can increase the axial compression force of the pile.

However, in the case of cast-in-place piles using such perforated steel pipes (1), since the reinforcement is composed of steel pipes having circular holes formed therein, the existing reinforcing bar has a resistance to tension and bending that the reinforcement must have. Although more reinforced than this, there is a problem in that the resistance against the vertical direction compressive force due to the vertical load to be reinforced in the building, etc., due to the circular through hole is not effectively exhibited.

Therefore, the present invention is devised to solve the above problems, the object of the present invention is to form an elliptical through-hole in the longitudinal direction of the pipe and applied in the transverse direction by using a perforated steel pipe made of a plurality of steel pipes overlapping It is to provide a site-casting pile using perforated steel pipes that can maximize resistance to compressive forces due to horizontal and vertical loads.

Features of the present invention for achieving the above object, in the field casting pile is constructed by filling the concrete in a drilled hole in the ground and inserting a steel pipe as a reinforcement in order to prevent the settlement of civil engineering, building structures, the cloth The reinforcement inserted into the tool is a cast-in-place pile consisting of multiple overlapping perforated steel tubes formed by overlapping a plurality of steel pipes having an elliptical through hole having a major axis in the longitudinal direction of the tube and a minor axis in the radial direction of the tube.

In the cast-in-place pile according to the present invention, the multiple overlapping perforated steel pipe is inserted into the concrete before the concrete filled in the drilling tool is hardened, the elliptical through hole larger than the maximum particles of the concrete so that the concrete can enter It is preferable to use what is formed.

In the cast-in-place pile according to the present invention, the multiple overlapping perforated steel pipe, the outermost steel pipe formed with a plurality of elliptical through-holes; A first inner steel pipe having a plurality of elliptical through holes formed therein and inserted into the outermost steel pipe; A plurality of elliptical through-holes are formed and may be composed of multiple overlapping steel pipes consisting of a second inner steel pipe inserted into and superimposed inside the first inner steel pipe.

In the cast-in-place pile according to the present invention, the first inner steel pipe or the second inner steel pipe, the lower end of the length corresponding to 1/2 to 1/3 of the total length (L) of the perforated steel pipe from the upper end of the outermost steel pipe It is characterized by being formed to overlap.

According to the present invention, the resistance to the compressive force due to the vertical load by replacing the reinforcement of the cast-in-place pile generally applied to the foundation of the structure that is subjected to a large load to the multiple overlapping perforated steel pipe 10 having an elliptical through hole (11a) Can be maximized.

In addition, according to the present invention, by applying a multi-layered perforated steel pipe 10 by adjusting the finished product in the factory by an appropriate length, it is possible to facilitate the increase in construction properties and quality control, such as the cost required due to manpower and time You will be able to expect savings.

The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the configuration and operation of the preferred embodiment of the present invention.

Figure 2 is an exploded perspective view showing the multiple overlapping perforated steel pipe according to the present invention, in detail to show the multiple overlapping perforated steel pipe 10 is inserted as a reinforcement in the interior of the construction pile to prevent settlement of civil engineering, building structures Doing. As shown in FIG. 2, the multiple overlapping perforated steel tube 10 is formed with an outermost steel pipe 11 having a plurality of elliptical through holes 11a and a plurality of elliptical through holes formed therein and overlapped inside the outermost steel pipe. The first inner steel pipe 12 is inserted, and a plurality of elliptical through-holes are formed and consists of a multi-overlapping tube consisting of a second inner steel pipe 13 inserted into and superimposed inside the first inner steel pipe. The multiple overlapping perforated steel tube 10 is formed by forming an elliptical through-hole 11a having a long axis (y-axis on the drawing) and a short axis (x-axis on the drawing) in the longitudinal direction of the multiple overlapping pipe. do. Here, the elliptical through hole 11a may be formed in a plurality of cylindrical steel pipes, and multiple overlapping perforated steel pipes having various thicknesses may be used according to the diameter of the cast-in-place pile and the diameter of the perforated steel pipe.

In addition, the plurality of elliptical through-holes (11a) formed in the multiple overlapping perforated steel pipe 10 may be modified in various positions, numbers, arrangements.

The multiple overlapping perforated steel pipe 10 is preferably inserted before the concrete filled in the drilling tool of the ground is hardened, elliptical through-holes larger than the largest particles of concrete, that is, the maximum aggregate particles so that the concrete can enter and exit ( It is preferable that 11a) is formed. As a result, when concrete is poured into the multiple overlapping perforated steel pipes 10 inserted into the cast-in-place piles, the concrete is tightly packed into the piles through the elliptical through holes 11a, thereby increasing the adhesion of the multi-overlapping perforated steel pipes 10 and concrete. By applying an elliptical through hole (11a) larger than the size of the maximum concrete particles, it is possible to prevent the separation of materials that could occur during concrete pouring, and also to manufacture a multi-layered perforated steel pipe 10 itself in the factory Providing a standardized product, and also by adjusting the thickness of the multi-ply overlapping perforated steel tube 10 and the number of the elliptical through-hole (11a) is applied to facilitate the design and construction convenience of the construction site.

3 is an exemplary view illustrating a state of use of a site-pouring pile in which multiple overlapping perforated steel pipes are constructed according to the present invention, when the concrete 101 is poured into a drilling tool 100 perforated in the ground, the first internal steel pipe 12 or the first 2 The inner steel pipe 13 is formed to overlap from the upper end of the outermost steel pipe 11 to the lower end of the length corresponding to 1/2 to 1/3 of the total length L of the multiple overlapping perforated steel pipe 10 desirable. This is because the vertical force due to the vertical load is mainly applied to the pile near the ground and is not transmitted to the lower end of the pile. When the vertical force exceeds 1/2 of the entire length of the perforated steel pipe, the reinforcement force is applied to the vertical force acting on the upper portion of the cast-in-place pile. Is fully effective but not effective in terms of cost, and if it is shorter than one-third of the total length of perforated steel pipe, it will not be able to exhibit sufficient reinforcement against the vertical force acting from the vertical to the ground. to be.

Looking at the construction site cast pile construction operation of the present invention, when the concrete is filled in the drilling tool excavated in the ground to the desired depth first insert the multi-layered perforated steel pipe 10 according to the present invention. The multiple overlapping perforated steel tube 10 can form a composite structure with the concrete communicated by the through-hole 11a formed in an elliptical shape, and the concrete and the present invention by the overlapped perforated steel pipe with the elliptical through-hole 11a. Since the adhesion performance of the perforated steel pipe is greatly enhanced to be able to be integrated with each other, when the concrete is cured, it is possible to complete the cast-in-place pile that can resist axial force, shear force and bending stress.

The present invention has been shown and described with respect to certain preferred embodiments. However, the present invention is not limited to the above-described embodiment, and those skilled in the art to which the present invention pertains various modifications without departing from the technical spirit of the present invention described in the following claims. You can do it.

1 is a perspective view of a perforated steel pipe used in the conventional cast-in-place pile construction,

Figure 2 is an exploded perspective view showing a multiple overlapping perforated steel tube according to the present invention,

3 is an exemplary state of use of the cast-in-place piles are constructed of multiple overlapping perforated steel pipes according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: multiple overlapping perforated steel pipe 11: the outermost steel pipe

11a: elliptical through hole 12: first internal steel pipe

13: second internal steel pipe

Claims (5)

In the site-placement pile, which is constructed by filling concrete in a drilled hole in the ground and inserting a steel pipe as a reinforcement material to prevent settlement of civil engineering and building structures. The reinforcement inserted into the cast-in-place pile is a multiple overlapping perforated steel tube formed by overlapping a plurality of steel pipes having an elliptical through-hole having a long axis in the longitudinal direction of the pipe and a short axis in the radial direction of the pipe. On-site casting pile using perforated steel pipe. The method of claim 1, wherein the multiple overlapping perforated steel pipe, The concrete is filled in the drilling tool is inserted into the concrete before the hardening, on-site casting pile using multiple overlapping perforated steel pipes, characterized in that the through-hole is formed larger than the maximum particles of the concrete so that the concrete can enter. The method of claim 1 or 2, wherein the multiple overlapping perforated steel pipe, An outermost steel pipe having a plurality of elliptical through holes formed therein; A first inner steel pipe having a plurality of elliptical through holes formed therein and inserted into the outermost steel pipe; A plurality of elliptical through-holes are formed and the site-pouring pile using a multi-overlapping perforated steel pipe, characterized in that composed of a second inner steel pipe is inserted into the first inner steel pipe overlapping. The method of claim 3, wherein the first inner steel pipe, On-site casting pile using multiple overlapping perforated steel pipe, characterized in that formed from the upper end of the outermost steel pipe overlapping the lower end of the length corresponding to 1/2 to 1/3 of the total length (L) of the perforated steel pipe. The method of claim 3, wherein the second inner steel pipe, On-site casting pile using multiple overlapping perforated steel pipe, characterized in that formed from the upper end of the outermost steel pipe overlapping the lower end of the length corresponding to 1/2 to 1/3 of the total length (L) of the perforated steel pipe.

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