KR102000194B1 - Composite pile and manufacturing method thereof - Google Patents

Abstract

In the present invention, when the lower portion of the base of the reinforcing net secured by the upper and lower reinforcing bars is inserted into the steel pipe pile so that the connecting reinforcing bars become radial, the connecting reinforcing bars at the upper portion of the steel pipe are inserted and cured in the inside of the steel pipe pile The axial direction strength of the cut portion formed by pouring and curing the concrete layer at the connection reinforcing bars at the upper end portion due to the restraining effect of the concrete layer by the spiral reinforcing bars wrapping the connecting reinforcing bars at the upper portion of the base portion, And the bending strength can be increased. Moreover, since the reinforcing net inserted into the steel pipe pile can be fixed to the inner surface of the steel pipe pile to serve as a shear key, the productivity of the synthetic pile can be increased and the structural stability can be maximized. Therefore, A synthetic pile which can improve reliability and a method of manufacturing the same All.

Description

Composite pile and manufacturing method < RTI ID = 0.0 >

The present invention relates to a composite pile, and more particularly, to a composite pile having a base end portion inserted into a steel pipe pile when inserting a lower end portion of a base end of a reinforcing net secured with upper and lower reinforcing steel rings, The length of the lower connecting reinforcing bars can be easily adjusted and the connecting reinforcing bars at the upper end of the base are positioned at the central portion of the concrete layer to be poured and cured in the inside of the steel pipe pile and the upper portion of the steel pipe pile, It is possible to increase the axial strength and flexural strength of the cut portion formed by pouring and curing the concrete layer at the connection reinforcing bars at the upper portion of the base by the restraining effect of the concrete layer by the helical reinforcing bars, It is possible to improve the production convenience of synthetic pile by using it as a shear key by fixing it on the inner side of the pile. To maximize the stability relates to a synthetic pile and its manufacturing method.

Generally, a pile used for the purpose of stably transferring the weight of a structure to a support layer is classified into a concrete pile, a steel pipe pile and a synthetic pile according to the material constituting the main body.

The concrete pile refers to RC pile, PC pile, PHC pile and so on. It has the advantage that the pile tip area is large and the end bearing capacity is large, and the material cost is only 1/3 ~ 1/5 of the steel pile pile. However, because of the low resistance to shear force and bending moment, when used on the foundation of a structure subjected to horizontal load, the number of piles increases and construction cost increases.

On the other hand, the above-mentioned steel pipe pile is excellent in resistance to bending moment and shear force, and has a small weight per unit length, excellent strength, and excellent workability. It can be applied to the field, which is advantageous in the field. However, since the material cost is high, the basic construction cost is increased.

Recently, in order to solve the problems of the concrete pile and the steel pipe pile, a composite pile having a different material or a combination of piles having different strength characteristics and adapted to the characteristics of the structure has been applied in the field.

As a prior art of the above-described synthetic pile, a synthetic pile and its installation method have been disclosed in Japanese Patent Application Laid-Open No. 07-071032.

In the registered patent, the base of the connecting steel bar was welded and fixed to the inner surface of the upper part of the steel pipe pile so that the upper end of the connecting steel bar protruded to the upper part of the steel pipe pile, and the synthetic pile was formed by casting and curing concrete in the steel pipe pile.

However, in the registered patent, there is an inconvenience that it is necessary to use a protective cover in order to hit the pile because the concrete is not poured and cured in the connecting reinforcing bar protruding to the upper portion of the steel pipe pile. When fixing the connecting reinforcing bar to the inner surface of the upper end of the steel pipe pile There is no member for fixing the position of the connecting reinforcing bar inserted into the pile of the steel pipe, so that it is difficult to fix the connecting reinforcing bar at a certain position, so that the manufacturing time is long and the productivity is lowered.

Japan Special Issue 07-071032

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned conventional defects, and an object of the present invention is to provide a reinforcement net fixed by upper and lower reinforcing bars so that the connecting reinforcing bars on the base portion and the lower portion are radial, And the length of the reinforcing bar inserted into the steel pipe is easily adjusted by the upper reinforcing bar ring when inserting the lower end of the reinforcing net into the inside of the steel pipe pile so as to equalize the product quality and shorten the working time In addition, the present invention provides a synthetic pile and method of manufacturing the same, which can improve the performance of the product by increasing the adhesive force by fixing the reinforcing net to the inner surface of the steel pipe pile.

Another object of the present invention is to provide a reinforced concrete structure in which the connecting reinforcing bars at the upper portion of the base are located at the central portion of the concrete layer piling and curing at the inside of the steel pipe pile and the upper portion of the base portion, The present invention provides a synthetic pile and a method of manufacturing the same, which can increase the axial strength and the bending strength of the cut portion formed by pouring and curing concrete in the connecting reinforcing bar at the upper portion of the base by the constraining effect of the concrete layer.

It is a further object of the present invention to provide a method for manufacturing a pile of concrete, which comprises applying a putter to a synthetic pile using a cut portion formed by pouring and curing concrete on a connection reinforcing bar at the upper end of the pile, The present invention provides a composite pile and method of manufacturing the composite pile, which can reduce the construction cost of the pile and improve the workability by connecting the bottom reinforced concrete to the bottom concrete of the upper structure.

In the present invention,

Steel pipe piles;

A reinforcing bar for fixing a connection reinforcing bar below the base end to the inner surface of the one end of the steel pipe pile so that the connecting reinforcing bar at the upper end of the base portion protrudes outside the steel pipe pile;

A concrete layer formed in the steel pipe pile,

And a cut portion formed of a concrete layer integrally formed with the concrete layer inside the steel pipe pile while receiving the connection reinforcing bar on the upper portion of the base portion protruding out of the steel pipe pile.

A method of manufacturing a composite pile of the present invention comprises:

Fixing the reinforcing bar net so that the connection reinforcing bar at the lower portion of the base is fixed to the inner surface of the one end of the steel pipe pile so that the connecting reinforcing bar at the upper end of the base portion protrudes outside the steel pipe pile;

Placing a steel pipe pile having the steel reinforcing net on the lower die;

After placing the concrete in a lower mold part where the connecting steel bar inside the steel pipe body of the steel pipe pile and the upper part of the base end are located, Forming a concrete layer through which the hollow portion penetrates at the cut portion where the connecting reinforcing bars of the reinforcing bars are located;

And forming the synthetic pile by disassembling the mold when the concrete layer is formed.

According to the present invention, a reinforcing net secured by upper and lower reinforcing bars is manufactured so that the connecting reinforcing bars on the upper and lower portions of the base are radially centered around the bent base, and when the reinforcing net is inserted into the steel pipe pile, So that it is possible to improve the productivity by increasing the productivity and manufacturing cost and also by fixing the reinforcing net to the inner surface of the steel pipe pile so as to serve as a shear key, It is possible to enhance the reliability of the product by increasing the bending strength of the synthetic pile by increasing the adhesion with the concrete.

In addition, according to the present invention, the connecting reinforcing bars at the upper portion of the base are placed at the central portion of the cut-section concrete poured and cured at the upper portion of the steel pipe pile, and the reinforcing bars of the concrete layer The axial strength and the bending strength of the cut portion can be increased to prevent the variation, and the possibility of breakage of the cut portion at the time of putting the composite pile on the ground can be lowered, so that the construction stability can be improved.

In addition, according to the present invention, when the synthetic pile is hammered, habit energy is locally transmitted to the steel pipe pile through the connecting reinforcing bar, so that it is possible to increase the structural stability of the pile by preventing the increase of the stress of the concrete layer, The reinforcing bars and the shear reinforcement for reinforcing the head to be applied when piling and removing the cut portions are integrated by the concrete filled in the hollow portion by replacing the ring with a rectangular or polygonal shear reinforcement to protrude into the hollow portion of the synthetic pile, The applied pulling force is transmitted to the synthetic pile through the reinforcement of the head reinforcement, the hollow concrete, and the shear reinforcement, thereby increasing the resistance against the pulling force.

1 is a perspective view of an embodiment of the present invention;
Figure 2 is a plan view of another embodiment of a lower reinforcing bar ring of one embodiment of the present invention.
Figs. 3 to 4 are diagrams showing a manufacturing process of an embodiment of the present invention
5 is a view showing a construction state diagram

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view of one embodiment of the present invention.

The synthetic pile 100 according to the present invention comprises a steel pipe pile 110 and a connecting reinforcing bar 121b at the lower end of the base is fixed to the inner surface of one end of the steel pipe pile 110, A reinforcing net 120 for protruding out of the pile 110 is formed and a concrete layer 130 formed inside the steel pipe pile 110 is formed and the upper part of the base part protruding outside the steel pipe pile 110 And a cut portion 140 formed of a concrete layer integrally formed with the concrete layer 130 inside the steel pipe pile 110 while accommodating the connection reinforcing bars 121c. More specifically, same.

The steel pipe pile 110 is provided with a steel pipe body 111 through which the inside of the steel pipe body 111 is penetrated and a lower plate 112 on which a slant rib 112 ' .

The reinforcing net 120 is provided with a proximal end portion 121a that is bent in the connecting reinforcing bar 121. The proximal end portion 121a of the proximal end portion 121a and the connecting reinforcing bar 121b And a lower reinforcing bar fixing ring 123 for fixing the connecting reinforcing bar 121b radially below the proximal end of the lower reinforcing bar 121 with respect to the bent base portion 121a, .

And a spiral reinforcing bar 124 for reinforcing the outer periphery of the connection reinforcing bar 121c on the base end portion to reinforce the strength.

The upper reinforcing bar ring 122 is formed in a circular shape so as to be connected to the lower end of the radially formed base end portion 121a and to be seated at the end of the steel pipe body 111. [

As shown in FIG. 1, the lower reinforcing bar fixing ring 123 is formed in a circular shape so as to be positioned inside the connection reinforcing bar 121b formed at the bottom of the base portion and radially formed.

As shown in FIG. 2, the lower reinforcing bar fixing ring 123 may be formed in a polygonal shape such that a part of the lower reinforcing bar fixing ring 123 protrudes from the hollow portion 131 inside the concrete layer 130 formed inside the steel pipe body 111 The lower reinforcing bar fixing ring 123 of the polygon serves as a shear reinforcement and is integrated by reinforcing bars and concrete installed in the hollow portion 131 for reinforcing the head after the composite pile 100 is installed, It is possible to increase the resistance against the pulling force by transmitting the reinforcing material to the composite pile 100 through the reinforcing bars and concrete and the lower reinforcing steel fixing ring 123.

The band 141 may further include a band 141 surrounding the upper end of the cutout 140 with the same diameter as that of the steel pipe pile 110 to reinforce the strength of the concrete. It serves to lower the possibility of damaging the cut part concrete.

Hereinafter, a manufacturing process of the composite pile 100 of the present invention will be described.

First, the inner side of the connecting reinforcing bar 121 is bent and the connecting reinforcing bars 121b and 121c are connected and fixed by the upper reinforcing bar fixing ring 122 such that the connecting reinforcing bars 121b and 121c are radially lowered and formed at the base end portion and the base end portion 121a.

At this time, the upper reinforcing bar fixing ring 122 is formed at a lower portion of the base portion 121a so as to radially form the connecting reinforcing bar 121c at the upper portion of the base portion and the connecting reinforcing bar 121b at the lower portion of the base portion, The connection is fixed.

The connection reinforcing bar 121c on the upper end of the base may be wrapped with a helical reinforcement 124 and the connection reinforcing bar 121c and the helical reinforcing bar 124 may be fixed by welding or a separate fixing member such as a wire.

The lower reinforcing bar fixing ring 123 is positioned inside the connecting reinforcing bar 121b located at the lower end of the radially formed base, The lower reinforcing bar fixing ring 123 and the lower reinforcing bar 121b are welded together to form the reinforcing bar 120 of the present invention.

3 to 4, the bottom plate 112 of the steel pipe pile 110 is coupled to the inside of one end of the steel pipe body 111 coupled to the other end of the steel pipe net 120 formed by the above- The depth of the reinforcing bar 120 connected to the inside of the steel pipe body 111 can be easily adjusted by placing the upper reinforcing steel ring 122 fixed to the outer lower side of the base portion 121a on the end of the steel pipe body 111 And the connecting reinforcing bar 121c on the base end of the reinforcing net 120 protrudes outside the steel pipe body 111.

The connection reinforcing bar 121b at the bottom of the base portion coupled to the inside of the steel pipe body 111 is tightly coupled to the inner circumferential surface of the steel pipe body 111 and the inner circumferential surface of the steel pipe body 111 is welded Thereby preventing the flow of the reinforcing bar 120 and also the connecting reinforcing bar 121b at the bottom of the base fixed to the inner circumferential surface of the steel pipe body 111 can serve as a shear key.

After the steel pipe pile 110 having the reinforcing net 120 coupled therein is placed on the lower mold 210 having the same inner diameter as the outer diameter of the steel pipe pile 110, The upper mold 220 is seated and fixed to the lower mold 210 while the concrete is placed in the lower mold 210 where the connecting reinforcing bars 121c are located inside the upper mold 111 and the upper end of the base.

The concrete pushed into the upper molds 210 and 220 by rotating the upper and lower molds 210 and 220 coupled and fixed as described above is centrifugally moved to the inner wall of the steel pipe body 111 of the steel pipe pile 110 A hollow concrete layer 130 cured while burying the connection reinforcing bar 121b at the lower end of the base portion and a connecting reinforcing bar 121c at the upper portion of the base portion protruding from the steel pipe body 111 integrally with the concrete layer 130, The composite pile 100 is formed by molding the cut part 140 composed of a hollow concrete layer cured while being buried in the autoclave and then curing the steam in the autoclave and disassembling the upper and lower molds 210 and 220, .

It is needless to say that the band 141 should be built in the inner surface of the upper and lower molds 210 and 220 at the upper end of the cutout 140.

5, the synthetic pile 100 formed by the above process is seated on the head of the PHC pile 10 inserted into the auxiliary piercing hole (not shown) for pile connection. At this time, the synthetic pile 100 The inclined ribs 112 'protruding from the bottom plate 112 of the PHC pile 10 can be easily coupled to the center of the PHC pile 10 and the center axis of the synthetic pile 100, The PHC pile 10 and the synthetic pile 100 are connected by a conventional method.

After the synthetic pile 100 is connected to the PHC pile 10 and the synthetic pile 100 connected to the PHC pile 10 is inserted into the perforation hole 11 into which the cement milk is injected, The cut portion 140 of the synthetic pile 100 is crushed by cementing the cement milk located between the perforation hole 11 and the synthetic pile 100 to form the upper portion of the upper portion of the reinforcing bar 120 The connecting reinforcing bars 121c are protruded so that the reinforcing bars installed on the bottom concrete of the structure and the connecting reinforcing bars 121c on the upper portion of the base are connected to each other so that the pulling force exerted on the structure is transmitted through the reinforcing bars of the bottom concrete of the structure and the reinforcing net 120, The composite pile 100 is transferred to the PHC pile 10 so that the resistance of the synthetic pile 100 to the pulling force can be increased.

The composite pile 100 connected to the PHC pile 10 is inserted into the perforation hole 11 and the cushion milk injected into the perforation hole 11 is cured after applying a putter to the cut portion 140 of the synthetic pile 100 (Not shown) for reinforcing the head is inserted into the hollow portion 131 of the synthetic pile 100 after cutting and removing, and the reinforcing bars (not shown) may be connected to the reinforcing bars provided on the bottom concrete of the structure.

Although the present invention has been described in connection with certain exemplary embodiments and drawings, it is to be understood that the phraseology and terminology used herein are for the purpose of description and should not be interpreted to limit the scope of the present invention. It must be interpreted in terms of meaning and concept. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only examples of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

100: synthetic pile 110: steel pipe pile
120: reinforcing net 130: concrete layer
140:

Claims (8)

Steel pipe piles;
A connection reinforcing bar at the lower end of the base portion is fixed to the inner surface of one end of the steel pipe pile, a connecting reinforcing bar at the upper end of the base portion is protruded to the outside of the steel pipe pile, a base end portion is inclined obliquely inside the connecting reinforcing bar, A reinforcing bar made of an upper reinforcing bar fixed to the upper end of the lower end of the base and configured to be able to easily adjust the depth of the reinforcing bar connected to the inside of the steel pipe body while being seated on the end of the steel pipe body, Net;
A concrete layer formed in the steel pipe pile,
And a cutting portion composed of a concrete layer integrally formed with the concrete layer in the steel pipe pile while receiving the connection reinforcing bars at the upper portion of the base portion protruding from the steel pipe pile.
delete The method according to claim 1,
Wherein the reinforcing net comprises a lower reinforcing bar fixing ring for connecting and fixing the connecting reinforcing bar under the base portion in a radial direction about the bent base portion.
The method of claim 3,
And a spiral reinforcing bar surrounding the outer circumferential surface of the connecting reinforcing bar above the base end to reinforce the strength.
The method of claim 3,
Wherein the lower reinforcing bar fixing ring is formed by radially forming a connecting reinforcing bar located in a lower portion of the connecting reinforcing bar below the base end portion and connecting a lower connecting reinforcing bar.
The method of claim 3,
Wherein the lower reinforcing bar fixing ring is formed in a polygonal shape so as to protrude from a hollow portion inside the concrete layer formed inside the steel pipe body.
The method according to claim 1,
And a band for reinforcing the strength of the concrete by wrapping the upper end of the cut portion with the same diameter as the steel pipe pile.
A connection reinforcing bar at the lower portion of the base is fixed to the inner surface of one end of the steel pipe pile, a connecting reinforcing bar at the upper end of the base portion is projected to the outside of the steel pipe pile, a base end portion is inclined obliquely inside the connecting reinforcing bar, And a reinforcing bar made of an upper reinforcing bar ring which is fixed to the lower end of the lower end of the base portion and is seated on the end of the steel pipe body so as to be able to easily adjust the depth of the reinforcing steel mesh connected to the inside of the steel pipe body, ;
Placing a steel pipe pile having the steel reinforcing net on the lower die;
After placing the concrete in a lower mold part where the connecting steel bar inside the steel pipe body of the steel pipe pile and the upper part of the base end are located, Forming a concrete layer through which the hollow portion penetrates at the cut portion where the connecting reinforcing bars of the reinforcing bars are located;
And, when the concrete layer is formed, disassembling the formwork to form a synthetic pile.

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