KR100999020B1 - Composite phc pile and construction method using the same - Google Patents

Abstract

PURPOSE: A composite PHC pile and a composite PHC pile construction method are provided to increase resistance against shear force. CONSTITUTION: A composite PHC pile(100) comprises a shear connector(130), a hollow concrete portion(140), and a flexural stiffener(150). The shear connector comprises a transverse reinforcing bar. The transverse reinforcing bar is extended to a hollow(S) of a PHC pile. The hollow portion of the PHC pile is filled with hollow concrete(141) for the formation of the hollow concrete portion. The flexural stiffener comprises steel reinforcing bars inside the hollow concrete portion.

Description

COMPOSITE PHC PILE AND CONSTRUCTION METHOD USING THE SAME}

The present invention relates to a synthetic PHC pile and a method for constructing a synthetic PHC pile using the same. More specifically, composite P.C pile and construction to effectively improve the structural performance (bending, compressive and shear resistance) of PHC piles while maintaining the economics, which is the advantage of PHC piles (Pretensioned Spun High Strength Concrete Pile) It is about a method.

Conventionally, the pile foundation for the structure used as a deep foundation can be largely divided into steel pipe pile and PHC pile (pretension centrifugal force high strength concrete pile),

In the case of these piles based on the same diameter, there is no significant difference in terms of tip bearing capacity,

In particular, the resistance to bending or shearing is largely different in the piles, and the application of the resistance has to be decided depending on which resistance should be given priority as pile foundation.

In other words, PHC piles have no problem in applying PHC piles because they are not only economically feasible in structures that have a greater influence of vertical force than steel pipe piles, but also have comparative advantages in terms of their constructability.

In structures with large influences of horizontal force (shear force) and bending moments such as earth pressure and seismic loads, PHC piles have a small resistance to them, which inevitably requires the use of relatively expensive steel pipe piles.

In order to improve the structural performance of the PHC pile 10, as shown in Figure 1a, the reinforcing bar 20 is inserted into the hollow portion (S) of the hollow concrete pile portion 11 to a certain depth, and the hollow portion (S) Synthetic PHC piles filled with secondary concrete 30 has been introduced.

That is, by filling concrete in the hollow portion (S) to further extend the support cross section of the PHC pile and the expanded support cross section is formed by the reinforced concrete body (20,30) by the reinforcing bar 20 structural performance of the entire PHC pile Will be improved.

However, in case of the synthetic PHC pile, the flexural rigidity can be sufficiently secured. However, when designing the PHC pile based on the flexural rigidity, the improvement of the shear capacity due to the earth load and the horizontal load such as the earthquake load is insignificant. There was this.

In other words, although the ability to resist bending, compression and shearing forces is greater than that of conventional PHC piles, the support sections formed of reinforced concrete bodies 20 and 30 have relatively smaller resistance to shearing forces based on improved bending stiffness. This ability to resist shear forces acted as a factor in determining the utilization of the synthetic PHC pile.

In this regard, a method of additionally installing the rebar 20 in the hollow part to improve the resistance to the shear force may be considered, but the rebar 20 is substantially filled even when the installation amount of the rebar 20 is increased. It is only to reinforce the hollow concrete, and not to be integrated with the hollow concrete pile portion 11, there was a limit in improving the shear resistance capacity.

In addition, Fig. 1b shows a conventional head reinforcing means for integral coupling between the constructed PHC pile 10 and the foundation concrete 40 of the structure, which eventually combines with the foundation concrete in the hollow of the PHC pile 10 It can be seen that the reinforcing bar 50 is disposed, and the filling concrete 60 is filled in the hollow so that the reinforcing bar 50 can be fixed.

The present invention is to solve the problems of the prior art, the object of the present invention is a synthetic PHC pile, which is economical, such as PHC pile, and easy to manufacture and excellent structural performance against the working load, especially the ability to effectively resist shear force It is to provide a means to improve.

Another object of the present invention is to provide a more effective synthetic PHC pile construction method by providing a head reinforcing means and a bending reinforcement at the same time as the composite PHC pile to combine with the basic structural concrete (1b).

Another object of the present invention is to be able to easily connect the synthetic PHC pile and the simple PHC pile, so that the length of the extension can be easily adjusted so that the composite PHC pile can be constructed at a depth where a large horizontal force such as an earthquake load is applied, At depths below that, it is possible to connect with simple PHC piles to enable more economical PHC pile construction.

The present invention to achieve the above technical problem

First, while the structural performance of the conventional PHC pile basically has to be used as it is, the construction is simple and economical to improve the structural performance of the pile to the internal reinforcing materials such as steel rods and helix reinforcement used in the PHC pile production There is additionally formed a shear connector exposed to protrude into the hollow portion (S), such shear connector is to be integrated with the hollow concrete to be filled in the hollow portion (S) in the field later, hollow concrete pile of PHC pile The hollow concrete part by the part and the hollow part concrete is made to resist external force with an integrated cross section.

This is to form a reinforced concrete body (20, 30) separately in the hollow portion (S) of the conventional PHC pile, and to simply expand only the support cross-section of the PHC pile, the expanded support cross-section of the hollow concrete pile of the PHC pile and the present invention It is to be completely integrated by the shear connector of the, so that the resistance to bending, compression and shear force by the enlarged support cross-section can be improved together.

In addition, the shear connecting material can be easily added with the arrangement of the internal reinforcing material when manufacturing the conventional PHC pile so that the economics and workability can be improved.

Second, the synthetic PHC pile of the present invention also has the necessity of the head reinforcement to be integrally combined with the concrete of the foundation structure, for this purpose, but the reinforcing bar to be installed as a reinforcement reinforcement in the hollow concrete portion, the upper end of the bending reinforcement The protruding flexural reinforcement is to be protruded upward of the synthetic PHC pile, and the head reinforcing means can be provided simultaneously by allowing the protruding flexural reinforcement to bind with the internal reinforcing bar of the foundation structure concrete.

Third, the PHC pile is usually made to have a constant length because of the limitation of manufacturing and transport, it will have a length of approximately 10-15M. However, when a PHC pile with a longer length is required as a pile, the PHC piles are connected to each other. To this end, the connecting steel is formed at the bottom of the PHC pile so as to be connected by welding.

Therefore, in the present invention, such a PHC pile can be connected to the bottom of the synthetic PHC pile as it is, so that the need for extension of the length is satisfied. That is, the synthetic PHC pile of the present invention has a large external force, so that the site requiring synthesis may be formed using the synthetic PHC pile and other sites as a simple PHC pile, thereby improving its utility.

Synthetic PHC pile according to the present invention, while ensuring the economics of the simple PHC pile as it is, simply forming a shear connector in the required portion, the hollow concrete filled in the hollow by the shear connector is hollow concrete of the simple PHC pile It is integrated with the pile to improve the bending moment and compressive force resistance due to the working load, and also to improve the resistance to shear force to ensure the structural performance of the structurally very efficient pile.

In addition, by using the manufacturing equipment of the conventional PHC pile as it is to be able to produce a synthetic PHC pile can reduce the manufacturing cost, it is also easy to manufacture and quality control can be very easy.

Furthermore, the flexural reinforcement can be used as a head reinforcement while additionally securing the flexural reinforcement such as the reinforcement reinforcement, thereby ensuring sufficient connection with the foundation concrete, and the head reinforcement is integrally formed with the synthetic PHC pile. It can be fixed in a rigid state, yet effectively resists drawing.

An embodiment of the present invention described above and shown in the drawings should not be construed as limiting the technical idea of the present invention. Those skilled in the art of the present invention can change and change the technical idea of the present invention in various forms. Accordingly, such improvements and modifications are within the scope of the present invention as long as they are obvious to those skilled in the art.

BRIEF DESCRIPTION OF THE DRAWINGS In order to describe the present invention more clearly and easily, the following describes the best embodiments of the present invention in detail with reference to the accompanying drawings. Is not limited to the embodiments described below.

First, the present invention is based on a high-strength hollow pile (hereinafter PHC pile) by the pre-tension made of a hollow concrete pile portion 110 formed with an internal reinforcement material 120 including a steel bar 121 and the spiral reinforcement 122 It is produced synthetic PHC pile (100).

Thus, the synthetic PHC pile 100 of the present invention is basically manufactured by using the production equipment of high strength hollow piles (PHC piles, hollow concrete piles) by pretension as it is to separate the installation for the shear connector 130 to be described later Do not have equipment.

That is, although it may be possible to manufacture the synthetic PHC pile 100 of the present invention using a separate facility, etc. This may cause an increase in the pile production cost is to use the conventional hollow concrete pile production facilities as it is.

In the present invention will be described based on the PHC pile production equipment.

To this, as shown in Figure 2a, first placed the mold 200 for the PHC pile on the production stand not shown,

The internal reinforcing material 120 is disposed on the side surface of the mold 200. The internal reinforcing material 120 is a steel bar 121 and the spiral reinforcement 122 used in the conventional PHC pile.

The steel rods 121 are installed using a steel rod 121 and a plurality of spaced apart from each other along the mold 200, so that the tension (length direction) is introduced.

The spiral reinforcement 122 is a reinforcing bar that is installed while enclosing the steel bar 121 in a spiral form as reinforcing bars that bind a plurality of spaced apart steel bars 121.

Since the steel rods 121 and the spiral reinforcement 122 are embedded in the hollow concrete pile portion 110 to be described later, they are referred to as internal reinforcement material 120, and are intended to reinforce concrete because the hollow concrete pile portion is to be formed of PC concrete. The function is called the reinforcement.

Next, the shear connecting member 130 of the present invention is installed as shown in Figure 3a so as to extend and project toward the hollow portion (S) of the PHC pile while wrapping the internal reinforcing material (120). For example, the steel bar 121 and the spiral reinforcing rods 122 are wrapped in the form of a rectangular ring-shaped closed reinforcing bar so as to cross each other so as to be installed in the cross direction in the internal reinforcing material 120.

The shear connection member 130 is installed a plurality of predetermined distances to the internal reinforcing material 120, this installation section may be determined in consideration of the reinforcement section of the composite PHC pile later.

For example, in the state of being installed on the ground of the synthetic PHC pile, roughly 3-7M from the ground surface is the section most susceptible to the horizontal force due to earth pressure and earthquake load, so that the shear connector 130 may be installed in accordance with this section.

At this time, the shear connector 130 is referred to in that it is to synthesize the PHC pile portion and the hollow concrete pile portion, the material, installation form, etc. other than being formed so as to extend and project toward the hollow portion (S) of the PHC pile. Is not otherwise limited and falls within the technical scope of the present invention.

After placing the internal reinforcing material 120 and the shear connector 130 in the mold 200 as above, the concrete for concrete pile portion 111 is injected into the mold 200, such concrete concrete for the pile pile 111 Will constitute the hollow concrete pile portion 110 itself.

Next, as shown in FIG. 2B, the hollow concrete pile portion 111 injected by centrifugal force may be formed to have a predetermined thickness from the inner surface of the mold 200 by rotating the mold 200. When the pile concrete 111 is hardened, the hollow concrete pile portion 110 may be naturally produced in the form of a hollow tube.

Next, after the hollow concrete pile portion concrete 111 is hardened to form a hollow concrete pile portion 110, the synthetic PHC pile 100 according to the present invention is manufactured by demolding the mold 200 as shown in FIG. 2C. It will be completed at this plant.

Such synthetic PHC pile 100 has the same diameter and the like as the conventional PHC pile when viewed from the outside as shown in Figure 3b, it can be seen that a portion of the shear connector 130 is exposed in the hollow (S). .

Accordingly, it can be seen that the synthetic PHC pile of the present invention can be manufactured, transported, and constructed without the need for any additional equipment and tools for manufacturing and transporting the conventional PHC pile.

Furthermore, the conventional PHC pile further includes a connecting means 160 such as a steel ring in order to increase the extension length thereof, and the connecting means 160 has the synthetic PHC pile of the present invention as it is, and the other In addition to synthetic PHC piles, it is possible to connect other PHC piles as they are.

As a result, it can be seen that it is possible to connect the other PHC pile (100a) by using the connecting means 160 to the bottom of the synthetic PHC pile of the present invention in order to meet the predetermined extension length to take advantage of the conventional PHC pile as it is. It can be seen.

Accordingly, the coupling relationship of the configuration of the synthetic PHC pile 100 of the present invention will be described with reference to FIG. 4. first,

In the PHC pile comprising a hollow concrete pile portion 110 is formed with an internal reinforcing material including a steel bar and a spiral reinforcement having a predetermined length (H),

It can be seen that the shear connector 130 including a transverse reinforcement is installed so as to extend from the hollow concrete pile portion 110 to the hollow portion (S) of the PHC pile is exposed.

The shear connector 130 has a predetermined interval, but it can be seen that a plurality is installed in the section that needs to be reinforced, which is to be formed within approximately 3-7M from the ground surface in a conventional PHC pile.

However, the shear connector 130 may be formed over the entire extension length of the PHC pile.

As such, the PHC pile to which the shear connector 130 is added is manufactured using a PHC pile manufacturing facility in a factory, and is carried in the final site and constructed as a synthetic PHC pile.

The hollow concrete part 140 is formed by filling the hollow part 141 in the hollow part S of the PHC pile so that the exposed shear connector 130 is embedded and synthesized.

The hollow concrete portion 140 is formed in the entire hollow portion (S) if there are no other constraints.

As a result, the synthetic PHC pile of the present invention can be seen that the hollow concrete pile portion 110 and the hollow concrete portion 140 by the shear connector 130 is completely structurally integrated with each other, whereby the synthetic PHC pile of the present invention The support cross section is made larger by the cross-sectional area occupied by the hollow concrete part 140, and improved by the integrated hollow concrete pile part 110 and the hollow concrete part 140 to the support cross section is increased resistance to shear force It is possible to secure the pile performance by the shear resistance capacity.

Therefore, the hollow concrete part filled in the hollow part of the conventional PHC pile without the shear connector 130 is separated from the hollow concrete pile part 110 and independently acts so that the structurally simply shares the load according to the rigidity, thereby improving resistance to each shear force. On the other hand, the synthetic PHC pile of the present invention has the hollow concrete part and the hollow concrete pile part completely integrated by the shear connecting member 130, so that each member simultaneously acts and resists the external force, thereby improving resistance to shear force. It can be seen that the ability to secure the ability.

This difference can be said to be the difference between the new concrete that is placed in contact with the existing concrete simply formed to be in contact only, and the new synthetic concrete integrated with each other by the internal reinforcement and the fixed shear connector 130 of the existing concrete.

Furthermore, before filling the hollow part concrete 141 in the hollow part S, a bending reinforcement 150 may be further installed in the hollow part S, and the bending reinforcement 150 may be reinforced in FIG. 1A. The configuration is similar to that of (20).

The flexural reinforcement 150 is to have a variety of extension length depending on the depth of the hollow concrete 141 is filled, preferably to be additionally installed in the section in which the shear connector 130 is installed, the upper end of the composite Make sure to protrude upward from the top of the PHC pile.

The upper end of the flexural reinforcement 150 protruding upwards can be seen as functioning as a kind of head reinforcing means by binding to the internal reinforcing bars 510 preset in the foundation concrete 500.

Therefore, the present invention enables the installation of the head reinforcement means naturally when the construction of the synthetic PHC pile can be seen that it is possible to construct a highly efficient synthetic PHC pile.

Figures 5a, 5b and 5c shows the construction sequence of the synthetic PHC pile by the perforation of the present invention. Of course, it is possible to construct by driving.

Referring to FIG. 5A, first, a punching hole 410 is formed in the ground 400 using a punching machine.

One such hole is shown, but a plurality of adjacent holes may be formed according to the synthetic PHC pile design.

Thus, the construction by the synthetic PHC pile of the present invention, if necessary, the upper portion is formed by the synthetic PHC pile according to the present invention, and the remaining portions thereof may be connected to each other by the PHC pile, only the synthetic PHC pile is used in Figure 5a See if it is possible.

When the formation of the drilling hole 410 is completed as described above, the synthetic PHC pile 100 is inserted into the drilling hole 410 as shown in Figure 5b.

When the insertion of the synthetic PHC pile by drilling or driving is completed, the hollow portion concrete 141 is filled in the hollow portion S of the synthetic PHC pile 100 as described above.

Before the filling of the hollow concrete 141, as shown in FIG. 5C, the bending reinforcement 150 may be installed in the drilling hole S. The bending reinforcement 150 may also have the entire depth of the drilling hole S or the shear connecting material ( 130) is to be installed in the formed section, but the upper end is set to protrude above a certain height from the upper surface of the synthetic PHC pile.

When the hollow part concrete 141 is filled in the hollow part S and cured, the final PHC pile construction of the present invention is completed.

Therefore, based on the ground 400, the shear connector installation position of the synthetic PHC pile is approximately 3-7M from the upper surface of the ground, and the horizontal load and flexural load such as the earthquake load are generated the most effectively in this section. It can be seen that the resistance can be secured.

As such, when the construction of the final composite PHC pile is completed, the foundation concrete 500 is poured. Before the foundation concrete 500 is poured, the reinforcement member 150 and the internal reinforcement of the composite PHC pile protruded upwards in advance. 510, and in this state, the final foundation concrete 500 is to be poured to complete the foundation.

Figure 6 illustrates in particular various embodiments of the shear stiffener 130 of the present invention.

That is, Figure 6a can be seen that the hook-type (reinforcement) shear connector 130 can be used instead of the square ring-shaped closed reinforcement according to Figure 3a,

6b and 6c it can be seen that the c-shaped (reinforced or shaped steel) shear connector 130 may be used,

Figure 6d can be seen that the bolt-shaped stud type shear connector 130 can be used,

6E and 6F show that triangular and v-type shear connectors 130 may be used.

That is, the shear connector of the present invention can be seen that the same function and action may have a variety of shapes or forms, each of which may be determined in consideration of the size of the working load.

Figures 1a and 1b shows a conventional internal concrete filling PHC pile and its head reinforcing means.

Figure 2a, Figure 2b and Figure 2c shows the manufacturing work of the synthetic PHC pile according to the present invention.

Figure 3a and Figure 3b is a perspective view of the combined perspective of the internal reinforcing material and the shear connector of the synthetic PHC pile according to the present invention and the connection perspective view.

Figure 4 is a complete state diagram of the synthetic PHC pile according to the present invention.

Figures 5a, 5b and 5c shows the construction sequence diagram of the synthetic PHC pile of the present invention.

6A, 6B, 6C, 6D, 6E and 6F are cross-sectional views of embodiments of the shear connector of the present invention.

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

100: synthetic PHC pile 110: hollow concrete pile

120: internal reinforcing material 121: steel bar

122: spiral reinforcement 130: shear connector

141: hollow concrete 140: hollow concrete

150: bending reinforcement 200: mold

400: ground 410: drilling hole

500: foundation concrete

Claims (10)

In the high-strength hollow pile (PHC pile) by the pre-tension comprising a hollow concrete pile portion 110 formed with an internal reinforcement material 120 including a steel bar and a spiral reinforcement, Shear connector 130 including a reinforcing bar installed to extend from the inside of the hollow concrete pile portion 110 to the hollow portion (S) of the PHC pile; And And a hollow concrete part 140 formed by filling the hollow part concrete 141 in the hollow part S of the PHC pile so that the exposed shear connector 130 is embedded and synthesized. The shear connector 130 is to be formed only to a certain depth from the top to the bottom of the PHC pile, the bending reinforcement member 150 including the reinforcement in the vertical direction inside the hollow concrete portion 140 is formed in the shear connector 130 Synthetic PHC pile to be pre-installed to the depth, the top of the bending reinforcement to protrude upward from the upper surface of the PHC pile. delete The composite PHC pile according to claim 1, wherein the shear connector is arranged to transversely surround the internal reinforcement as any one of reinforcing bars, section steels, or studs, and is spaced apart along the internal reinforcement. delete delete delete delete In the high-strength hollow pile (PHC pile) by a pretension including a hollow concrete pile portion formed with an internal reinforcing material including a steel rod and a spiral reinforcing bar, extending from the inside of the hollow concrete pile portion to the hollow portion (S) of the PHC pile Shear connector comprising a transverse reinforcement so as to be installed; And a flexural reinforcement installed so as to be installed up and down in the hollow part, the upper end of which is protruded upward from the upper surface of the PHC pile to be inserted into the ground. And filling the hollow portion concrete in the entire hollow portion S of the PHC pile to form the hollow concrete portion of the synthetic PHC pile so that the exposed shear connector and the flexural reinforcement are embedded. The shear connector is to be formed only up to a certain depth from the top to the bottom of the PHC pile, the bending reinforcement 150 is to be installed in advance to the depth of the shear connector 130 in the up and down direction inside the hollow concrete part 140, Synthetic PHC pile construction method so that the upper end of the bending reinforcement to protrude upward from the upper surface of the PHC pile. 9. The method of claim 8, wherein the upper end of the flexural reinforcement is bound to the internal reinforcing bars of the foundation to be used as the head reinforcement of the PHC pile. 10. The method according to claim 8 or 9, wherein the synthetic PHC pile is installed to be inserted into the ground after connecting a simple PHC pile having a hollow portion (S) to the bottom.

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