KR200397340Y1 - The reinforcement structure of the head of Concrete pile - Google Patents

Abstract

According to the present invention, the outer circumferential surface of the concrete pile head is joined by a coupling member in the form of a semicircular metal plate and the other metal plate wrapped around the outer circumferential surface, and the penetrating inner surface of the concrete pile head is filled with the head portion. Filled as concrete, the metal plate relates to the head reinforcement structure of the concrete pile, characterized in that the structure of the semi-circular shape of the transverse direction convex to the outside at regular intervals to reinforce the strength of the metal plate.

The present design simply and effectively reinforces the head of concrete piles to prevent the piles from destroying from the center to the outside due to resistance and vertical loads against horizontal loads such as earthquakes. Reinforced head structure of concrete pile.

This is advantageous in that the factory can be manufactured than the method of installing the stuffed concrete inside the concrete pile in the conventional site, so that the quality is constant and economically installed.

Description

Reinforcement structure of the head of Concrete pile

The present invention is related to the head reinforcement structure of concrete piles. More specifically, the ground piles are not sufficient in the construction of civil engineering, construction, and other structures, so when the pile foundation is installed to transfer the load of the upper structure to the lower support layer. By applying a tensile force to the outer circumferential surface of the concrete pile head by fixing a material with high tensile strength, such as a metal plate coated with anticorrosion or coating on the outer circumferential surface of the head, the circ-stress of the concrete pile is directed outward by the load applied to the concrete pile. It relates to the head reinforcement structure of the concrete pile, characterized in that the structure to suppress the maximum.

In general, concrete piles include centrifugal reinforce concrete piles (RC), pretensioned centrifugal prestressed concrete piles (PC, prestressed concrete piles), pretensioned centrifugal prestressed high strength concrete piles (PHC), etc. When the load (P) is applied to the upper portion of the inner hollow concrete pile head as shown in Figure 1a, as shown in Figure 1a is due to the circular stress (Hoop-stress) toward the outside of the concrete pile Cracks are generated to destroy the concrete pile 1.

Therefore, after installing the concrete pile in order to prevent the crack phenomenon as described above, after cutting the concrete pile (1), leaving a predetermined portion for connection with the structure, even in the inner hollow space of the concrete pile head as shown in Figure 2a As shown in 2b, the structure in which the reinforcing bar 2 is installed and the filling concrete 3 is filled to increase the cross-sectional area subjected to the load applied from the upper part and is integrated with the structure to reinforce the head of the concrete pile is reinforced with the filling concrete. The problem of weakening the adhesion to the existing concrete piles and the filling of the inside of the installed concrete piles As a method of reinforcing concrete and reinforcing bars, the increase of stress is ineffective because the reinforcing bars are close to the center of the piles. Since it is installed close to the central axis, the resistance moment or the secondary moment of cross section cannot be increased significantly. However, there was a limit to supplement the weaknesses of tensile strength and brittleness, which are disadvantages of concrete piles.

And the ready-made concrete piles with pile reinforcing steel plates installed at the top and bottom of the piles were installed for the purpose of protecting the piles from the impact generated when the piles were piled, which was connected to the upper structure after the concrete piles were installed. The height of the lower part of the structure and the upper part of the pile to be installed should be the same, but the height of the reinforcement plate installed when manufacturing the pile is not the same as the height of the lower part of the structure. It should be cut to fit. Therefore, the reinforcement plate installed in pile manufacturing cannot be used.

Therefore, the present invention has a semi-circular shape in which a material with strong tensile force, such as a metal plate coated with anticorrosion or coating, is applied to the outer circumferential surface of the concrete pile head in order to solve the above problems. By fixing the metal plate, the load applied to the pile acts outside the circular concrete pile to suppress the hoop-stress that cracks or destroys the pile to the maximum, thereby preventing cracks and fractures from occurring. The purpose is to provide a head reinforcement structure of the concrete pile.

The present invention as a means for solving the above problems in the concrete pile head reinforcement structure,

The outer circumferential surface of the concrete pile head is joined by a coupling member in the form of a semicircular shape of the one side metal plate and the other side of the metal plate wrapped around the outer circumference thereof.

The penetrating inner surface of the concrete pile head is filled with the head part filled with concrete,

The metal plate relates to the head reinforcement structure of the concrete pile, characterized in that the structure of the semi-circular shape in the transverse direction convex to the outside at regular intervals to reinforce the strength of the metal plate.

The semi-circular metal plate is formed of flanges formed at regular intervals with holes formed at both ends thereof so as to couple the metal plates to each other. The metal plate forms a semi-circular frame in the transverse direction convex to the outside at regular intervals to reinforce the strength of the metal plate because the load acts on the outside of the circular pile when a load is applied to the head of the concrete pile. This is to minimize the hoop-stress that tries to break concrete piles outward.

The coupling member wraps the metal plate on one side and the metal plate on the other side by using the holes formed at regular intervals on the flange surface where both ferrous metal plates are in contact with each other. As the coupling member, fasteners such as rivets or bolts and nuts are used.

As described above, the reinforcement structure of the concrete pile head to most effectively suppress the occurrence of cracks in the concrete pile by the hoop-stress is a structure that reinforces the tension member at the longest distance from the central axis of the concrete pile, that is, concrete Most preferably, a reinforcing structure for wrapping the outer circumferential surface of the pile as a semicircular metal plate.

As the tension member, anticorrosive or coated steel sheets, fiber reinforcement materials, and the like may be used. By using these, the head circumference of the concrete pile may be split in advance so as to be able to resist external forces to be generated in the future. The galvanized steel sheet is preferable as the anticorrosive or coated iron sheet, and reinforcing fibers are preferable as the fiber reinforcing material.

The reason for filling concrete in the interior space of the concrete pile head is to increase the area in contact with the foundation and the pile of the pile superstructure to distribute the concentrated load transferred to the upper foundation pile. Filling only the head space without filling the filling method is to fill the inner space of the concrete as illustrated in Figures 4a and 4b to fill the circular plate as much as the inner space so that the concrete does not flow more than a predetermined depth Put it in. At this time, there is a method of fixing the plate from the outside as shown in Figure 4a and 4b to fix the circular fall prevention frame.

The head reinforcing method of the concrete pile according to the present invention will be described in detail with reference to FIGS. 3A to 3C.

Iii) wrapping the outer circumferential surface of the head of the concrete pile 1 using the semi-circular shape of the one side metal plate 4 and the other side metal plate (4 '); (Fig. 3a)

Ii) concrete piles (1) joining the semi-circular metal plate on both sides of the head by the coupling member (6); (Fig. 3b)

Iii) filling the filling concrete (3) after placing the reinforcing bar (2) in the hollow inner space of the concrete pile (1); (FIG. 3c)

The head of the concrete pile is reinforced by means of

By the coupling member 6, such as bolts, nuts, etc., which are coupled to the flanges 5, which are semicircular-shaped, both sides of the metal plate of the semicircular shape surrounding the outer circumferential surface of the concrete pile head by the steps iii) and ii) When tightened while joining, pile cracks or fractures can be suppressed because the outer circumferential surface of the concrete pile is reinforced at the position farthest from the central axis of the concrete pile. It is effective to prevent as much as possible.

And in the step iii) by reinforcing the reinforcing bar in the hollow interior space of the concrete pile head, filling the filling concrete, it is possible to increase the cross-sectional area subjected to the load applied from the top of the concrete pile and also to integrate with the structure How to reinforce the head.

And the head reinforcement structure of the concrete pile is shown in Figure 4a and 4b " It is also possible to increase the adhesion strength between the concrete pile 1 and the metal plate 4 by using the fixing member 7 which is a “steel plate of a shape.

Therefore, in the method of reinforcing the head of the concrete pile, step ii ') is added after step ii) to completely fix the concrete pile 1 and the metal plate 4 combined in the step ii) using the fixing member 7. After the step; after the step ⅲ) may be reinforced to the head of the concrete pile.

The fixing member has an inner surface of the concrete pile and the outer surface of the metal plate surrounding the pile outer peripheral surface By inserting the inside of the male groove to be completely fixed to the concrete pile and the metal plate wrapped around its outer surface, and then install the reinforcing bar (not shown) inside the concrete pile, filling the filling concrete (not shown).

The construction state of the head reinforced concrete piles according to the present invention will be described in detail with reference to FIGS. 5A and 5B.

Figure 5a shows the construction of the head reinforced concrete pile to support the footing (footing) is a structure that does not reinforce the reinforcement inside the pile. According to the above method, the head of the concrete pile 1 is reinforced with a metal plate 4 on its outer circumference, and the hollow space therein is filled with filled concrete 3, and the position of the lower portion from the top of the pile is changed. The upper portion of the rubble 9 is placed up to a portion coinciding with the upper surface of the outsole concrete 8. Since the pile is embedded into the pile upper foundation, the lower reinforcement of the superstructure foundation should be cut without connecting each other. Therefore, since it is necessary to reinforce a separate reinforcement around the pile, the head portion of the reinforcing structure is located almost above the footing reinforcing bar 2 '.

Figure 5b is a method for installing the upper foundation of the pile integrally without cutting or bending the bottom reinforcement of the foundation concrete (upper foundation of the pile) in a general manner construction of the head-reinforced concrete pile to support the footing (footing) It is a structure that reinforces steel inside the pile. The method of the concrete pile (1) head portion is a structure in which the outer circumferential surface of the head is reinforced with a metal plate (4), and the hollow space therein is filled with reinforced concrete (3) after rebar is reinforced, The upper portion of the head is recessed to a position where the upper portion of the pile is slightly higher than the upper surface of the sole concrete 8 placed on the upper portion of the rubble 9. Therefore, when the head portion of the reinforcing structure rises above the top of the footing lower reinforcing bar 2 ', the head portion of the reinforcing structure has to be cut or bent at the bottom of the footing lower reinforcing bar 2'. Will be located at

As described above, the method of installing the reinforcement of the pile head may vary depending on the reinforcement structure of the concrete pile.

The present design simply and effectively reinforces the head of concrete piles, thereby preventing the piles from being broken from the center to the outside due to resistance and vertical loads against horizontal loads such as earthquakes. It is the reinforcement structure and reinforcement method of the concrete pile to reinforce the head of the pile, which is the load transfer part, to play the original stable role.

This is an advantage that can be installed in a factory, rather than simply installing the inside of the concrete pile in the conventional site, the quality is constant, economical installation.

1a and 1b is a state in which a crack is generated by applying a load to a conventional concrete pile.

Figure 2a and 2b is a plan view of a state filled with filled concrete in the hollow space inside the conventional concrete piles.

Figure 3a to 3c is a state diagram for coupling the metal plate on the outer peripheral surface of the head of the concrete pile according to the present invention.

4a and 4b is a state of fixing the metal plate wrapped around the inner surface and the pile outer peripheral surface of the concrete pile according to the present invention.

Figure 5a and 5b is a cross-sectional view showing a state constructed using the head reinforced concrete piles according to the present invention.

Explanation of symbols on main parts of drawing

1: concrete pile 2: rebar

3: filled concrete 4: metal plate

5 flange 6 coupling member

7: fixing member 8: outsole concrete

9: rubble

Claims (4)

In the concrete pile head reinforcement structure, The outer circumferential surface of the concrete pile head is joined by a coupling member in the form of a semicircular shape of the one side metal plate and the other side of the metal plate wrapped around the outer circumference thereof. The penetrating inner surface of the concrete pile head is filled with the head part filled with concrete, The metal plate is a head reinforcement structure of the concrete pile, characterized in that the structure of the semi-circular shape of the transverse direction convex to the outside at regular intervals to reinforce the strength of the metal plate. 2. The head reinforcing structure of claim 1, wherein the semi-circular metal plate is formed of flanges formed at regular intervals with holes formed at both ends thereof so as to couple the iron plates to each other. The method of claim 1, wherein the coupling member is a head reinforcement structure of the concrete pile, characterized in that the fasteners such as rivets or bolts, nuts. The head reinforcement structure according to any one of claims 1 to 3, wherein Head reinforcement structure of the concrete pile, characterized in that to increase the adhesion strength of the concrete pile and the metal plate by using the fixing member of the steel plate.