KR100938394B1 - Phc pile with imbeded steel pipe - Google Patents

Abstract

PURPOSE: A hollow concrete pile in which a steel pipe having a through hole is embedded is provided to have the efficient and economic section thickness by preventing the corrosion due to moisture included in the air or the ground by embedding a steel pipe to be not exposed to the outside. CONSTITUTION: A hollow concrete pile in which a steel pipe having a through hole is embedded is composed of a hollow concrete pile(100), a steel pipe(200), and an external reinforcement pipe(300). The steel pipe is embedded inside the hollow concrete pile and has a through hole. The external reinforcement pipe is formed to reinforce the upper part or the head of the hollow concrete pile.

Description

Hollow concrete pile embedded with steel pipe with through hole {PHC PILE WITH IMBEDED STEEL PIPE}

The present invention relates to a hollow concrete pile embedded with a steel pipe formed with a through hole. More specifically, the hollow concrete piles for reinforcing the hollow concrete piles with steel pipes.

Conventionally, pile foundations for structures used as deep foundations can be largely divided into steel pipe piles and PHC piles (pretension centrifugal high strength concrete piles, hereinafter hollow concrete piles) or PC piles (prestressed concrete piles).

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 has a big difference in each pile, so its application was decided depending on which resistance should be given priority as pile foundation.

That is, since the hollow concrete pile or PC pile is not only economically effective in the structure where the influence of the vertical force is greater than that of the steel pipe pile, it also has a comparative advantage in terms of constructability, so there is no problem in applying the hollow concrete pile or PC pile. None

In structures with large horizontal forces and bending moments such as earthquake loads, hollow concrete piles have a small resistance to them, which inevitably leads to the use of relatively expensive steel pipe piles.

In order to maximize the advantages of the hollow concrete piles, PC piles and steel pipe piles, in particular, as shown in Figure 1a, the hollow concrete piles 11 and the steel pipe piles 12 are welded (A) by the connecting plate 13, the tip portion 14 ) Through the support layer 20,

The steel pipe piles in order to clean up, discarded concrete (30) and foundation concrete (40) in the order of construction, inside the steel pipe pile (12) and hollow concrete pile (11) or only inside the steel pipe pile (12) concrete (14) Synthetic pile 10 to be filled is introduced.

The synthetic pile 10 is tofu head to minimize the damage to the head due to the large resistance to the driving energy is formed by the steel pipe piles, and most of the sites in the ground are formed of economical hollow concrete piles are very economic advantages There was this.

However, by filling concrete in all steel pipe piles, the production and construction of synthetic piles are somewhat inefficient, and the field work is relatively large in the manufacture of composite piles, and thus the need for technology development for more effective and economical composite piles has emerged.

In addition, the steel pipe pile 12 is in contact with the groundwater and the like as time passes after construction due to the nature of the synthetic pile installed into the ground and such a corroded surface is to reduce the cross-sectional thickness of the steel pipe pile 12 Because it plays a role, when designing the thickness of the steel pipe pile, the thickness must be increased in consideration of the corroded thickness.

As a result, in the case of synthetic piles, all of the portions formed of steel pipes are conventionally manufactured to be exposed to the outside, thereby inevitably causing a thickness increase factor in consideration of the corrosion.

In addition, when there is a need to further reinforce the composite pile there is no means to adjust the height or thickness of the steel pipe pile 12 arbitrarily, there was no limit to the use of efficient composite pile.

Accordingly, the present invention is to provide a hollow concrete pile that can have an efficient and economical cross-sectional thickness by not exposing the portion formed of the steel pipe to the outside, so as not to corrode by air or moisture contained in the ground. It is a task.

In order to achieve the above object, the present invention is configured as follows.

First, the present invention is to be embedded a steel pipe having a certain length in the upper end of the hollow concrete pile as a synthetic pile, so that the steel pipe is not exposed to the outside.

Second, the steel pipe is installed in the formwork in advance when manufacturing the composite pile and using the centrifugal force to use the manufacturing method of the hollow concrete pile to be more economical manufacturing, but to use the centrifugal force to make the flow of concrete Through-holes were formed in the steel pipe in advance.

Third, the studs are further formed on the surface of the steel pipe embedded in the hollow concrete pile to allow the composite to increase with the concrete. Also, the sleeve is further formed on the surface, and the sleeve is exposed to the surface of the hollow concrete pile. The reinforcement pipe is further formed by the fastening bolts on the sleeve to enable additional hollow concrete pile top reinforcement,

The external reinforcing pipe was to be used as a head reinforcement and connecting means of the hollow concrete piles to ensure the use efficiency of the external reinforcing pipe.

According to the hollow concrete pile embedded with a steel pipe formed with a through-hole according to the present invention, the installation of the steel pipe is not only easy to manufacture, but also because the steel pipe is not exposed to the outside is enhanced durability, the hollow concrete pile It is possible to manufacture hollow concrete piles more efficiently and economically by enabling the additional reinforcement of hollow concrete piles by using steel pipes embedded in them.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications fall within the protection scope of the present invention as long as it will be apparent to those skilled in the art.

BRIEF DESCRIPTION OF DRAWINGS 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, and embodiments according to the present invention may be modified in various other forms, and thus the scope of the present invention. Is not limited to the embodiment described below.

Figure 2a to 2c schematically shows the manufacturing work of the hollow concrete pile (100, hollow pipe-shaped concrete pile) embedded steel pipe according to the present invention.

The hollow concrete pile 100 according to the present invention is basically manufactured by using the production equipment of high strength hollow concrete piles (PHC piles, hollow concrete piles) by pretension as it is to separate the steel pipe 200 to be described later It is characterized by not having a facility.

That is, the hollow concrete pile 100 of the present invention may be manufactured by using a separate facility, but since this may cause an increase in the pile manufacturing cost, it is preferable to use a conventional hollow hollow concrete pile manufacturing facility as it is. It describes on the basis of the hollow concrete pile production equipment.

To this, as shown in Figure 2a, first placed a mold (A) for manufacturing hollow concrete piles on the production platform not shown,

The steel pipe 200 according to the present invention is disposed on the side surface of the mold A.

The mold (A) can be made so that the final cross-section of the hollow concrete pile in the form of a circular or square cross-section, other forms will be possible.

In the present invention will be described based on the production of hollow concrete pile of the circular cross-sectional shape.

The mold (A) is also produced in the form of a circular tube can be seen that the hollow concrete pile is formed in the form of a circular tube.

The steel pipe 200 may also be used in the form of a square tube or a circular tube in the present invention will be described based on the one formed in the form of a cylindrical tube.

The steel pipe 200 is a circular pipe having a predetermined diameter (D) and a planned height (H) for reinforcement, but using a one produced in consideration of a constant thickness (t).

In the present invention, since the steel pipe 200 is embedded in the concrete concrete for hollow concrete pile 110 to have a thickness of the state except the thickness in consideration of the corrosion to ensure sufficient production and economic efficiency.

The steel pipe 200 has a through-hole 210 is formed so that the hollow concrete pile concrete 110 can pass through, the shape of the through-hole 210 may also be a variety of circular, rectangular shape. The plurality may be formed at arbitrary intervals, or may be formed by a long oval hole in the form of a slit.

The steel pipe 200 is to be arranged as a steel pipe embedded in the hollow concrete pile of the circular cross-section, structurally serves to increase the rigidity for the load (earthquake load, etc.) acting on the upper end of the hollow concrete pile.

Accordingly, the steel pipe 200 is preferably such that a plurality of studs 220 are formed on the surface of the concrete concrete for the concrete pile pile 110 to improve the adhesion performance.

Furthermore, the outer reinforcing pipe 300 is formed on the surface of the steel pipe 200 by a fastening bolt 240 fastened to the sleeve 230 as shown in FIG. Allow for additional mounting.

The external reinforcement pipe 300 is to be formed in the shape of a circular tube so that the contact with the outer circumferential surface of the hollow concrete pile, but also the fastening hole (bolt hole, 310) the sleeve 230 so that the fastening bolt 240 can pass through It is used to be formed corresponding to the position and number of.

This external reinforcement pipe 300 is removable so that it can be further installed for the top reinforcement of the hollow concrete pile 100 if necessary.

The cross-sectional height and size of the external reinforcing pipe 300 may be changed depending on the reinforcement portion and degree, and accordingly, the installation position and the number of the sleeve 230 may be adjusted together.

Accordingly, the hollow concrete pile 100 according to the present invention allows the steel pipe 200 embedded therein to be embedded therein, and further includes an external reinforcement pipe 300 by the sleeve 230 formed in the steel pipe 200. It can be seen that it has a very efficient configuration for the reinforcement of the hollow concrete pile 100 can be mounted.

Accordingly, as shown in FIG. 2B, the hollow concrete pile concrete 110 injected by centrifugal force by rotating the mold A may be formed with a predetermined thickness through the through-hole 210 of the steel pipe 200, and the hollow injected therein. The concrete pile concrete 110 to be formed through the steel pipe 200 through the through-hole 210, and when the final hardening, the concrete pile can be naturally produced in the form of a hollow tube, but inside the steel pipe 200 It can be seen that this can be purchased.

At this time, although not shown, in the mold (A), a tension member such as a PC strand may be further disposed so that compression prestress may be introduced into the hollow concrete pile.

Next, after the hollow concrete pile concrete 110 is cured, the hollow concrete pile 100 according to the present invention is completed by demolding the mold A as shown in FIG. 2C.

The hollow concrete pile 100 according to the present invention can be seen that the steel pipe 200 is embedded in the upper end is sufficiently integrated by the stud,

Furthermore, it can be seen that the diameter of the hollow concrete pile 100 by the steel pipe 200 does not change otherwise over the entire length.

As such, the hollow concrete pile 100 having the steel pipe 200 of the present invention embedded therein greatly improves resistance to horizontal loads such as earthquake loads while minimizing head failure of the piles due to crushing. It can effectively resist the bending moment and shear force acting on the top of the pile.

According to FIG. 3, the outer reinforcing pipe 300 is additionally mounted at the upper end of the hollow concrete pile 100 having a circular hollow tube shape, that is, the sleeve 230 is exposed by the embedded steel pipe 200. It can be seen, such an external reinforcing pipe 300 can be seen to be simply mounted to the fastening bolt 240 is fastened to the sleeve 230.

This external reinforcement pipe 300 is a very useful solution when the need to further reinforce the top of the hollow concrete pile 100 in the field occurs. The reason is that the hollow concrete pile 100 according to the present invention is difficult to arbitrarily reinforce it because the steel pipe 200 for reinforcement is embedded therein.

Furthermore, not only the top of the hollow concrete pile 100, but also the position of the steel pipe 200 can be changed according to the position, it may be installed more than one.

4a and 4b, there can be seen examples of the hollow concrete pile 100 according to the present invention,

First, in the case of Figure 4a it can be seen that the steel pipe 200 as a hollow concrete pile 100 in the form of a circular hollow tube can also be produced in the form of a circular tube,

In the case of Figure 4b it can be seen that the steel pipe 200 can also be produced in the form of a square pipe as a hollow concrete pile 100 in the form of a hollow hollow tube.

5a and 5b it can be seen that the cross-sectional shape of the hollow concrete pile 100 of the present invention is capable of deformation in the upper end and the lower end.

According to Figure 5a, the upper end portion 120 of the hollow concrete pile 100 can be seen that the steel pipe 200 is formed therein, as shown above, all the cross-sectional shape is formed in a rectangular cross-sectional shape. Can be.

In addition, it can be seen that the lower end 130 extending downward in contact with the upper end is formed in a circular cross-sectional shape.

That is, the upper surface of the top of the hollow concrete pile 100 may be greatly impacted by anti-taking for inserting the hollow concrete pile 100 into the ground, so there is a risk of breakage, but hollow in a rectangular cross-sectional shape to ensure sufficient cross-sectional rigidity. The upper end of the concrete pile 100 is to be formed.

In addition, the upper end of the hollow concrete pile 100 is formed so that the cross-sectional area is somewhat larger than the lower end 130 of the circular cross-sectional shape to ensure sufficient resistance to the action load that occurs largely at the upper end of the hollow concrete pile 100 I would have to.

As described above, manufacturing the cross-sectional shape of the upper end and the lower end of the hollow concrete pile 100 differently can be solved by changing the shape of the mold A. From the time of manufacture, the upper end and the lower end of the hollow concrete pile 100 Since the cross-sectional shape is different, it is very advantageous also in the transportation and construction.

Referring to FIG. 5B, it can be seen that the example shows that the external reinforcing pipe 300 is further installed at the upper end of the hollow concrete pile 100 in the form of a square section according to FIG. 5A.

6a and 6b show, in particular, other embodiments of the outer reinforcement tube 300.

According to Figure 6a shows an example of the external reinforcing pipe 300 is used for the head reinforcement of the hollow concrete pile (100).

That is, the external reinforcement pipe 300 as a head-shaped reinforcement of the pipe shape in which the fastening hole 310 is formed in the sleeve 230 of the steel pipe 200 in which the through-hole 210 embedded in the upper end of the hollow concrete pile 100 is formed. , The reference numerals are different, but the external reinforcement pipe 300 is used as it is to be installed above the hollow concrete pile 100 by using the fastening bolt 240.

The upper surface of the head reinforcement of the external reinforcing pipe is formed with the upper support portion (B) bent to the upper surface of the hollow concrete pile 100, and the head support 320 is extended in advance so that the head reinforcement 320 is integrated in advance In the future, they will be connected to the internal reinforcement of the foundation.

Although not shown, the head reinforcement 320 may be integrated on the side of the head reinforcement.

Thus, the steel pipe 200 formed with the through-hole 210 according to the present invention basically can be used as a head reinforcing means of the hollow concrete pile 100 if it is also installed to reinforce the upper end of the hollow concrete pile 100. Can be.

Referring to FIG. 6B, it can be seen that the steel pipe 200 in which the through hole 210 is formed may be used as a connecting means of the hollow concrete pile 100.

That is, the hollow concrete pile 100 mass-produced in a certain length is arranged so that the steel plates are exposed at its ends to weld the steel plates against each other to extend the length of the hollow concrete pile 100 of a certain length, such as The length extension by welding of steel plate is not easy to control the quality of welding and the welding work is often not easy.

In the case of the present invention, since the connection pipes of the two hollow concrete piles 100 to be connected are provided with steel pipes 200 formed with the through holes 210 by the sleeves 230, respectively, the fastening holes 310 to surround the connection parts. Set the external reinforcement pipe (300) formed, and by using the fastening bolt 240 to the sleeve 230, both hollow concrete piles 100 are connected to each other by the external reinforcement pipe 300 simply mechanical fastening It can be seen that the hollow concrete pile 100 can be connected by the joint construction.

1 shows an example of a conventional synthetic pile.

Figure 2a, Figure 2b and Figure 2c schematically shows the manufacturing work of the hollow concrete pile embedded with a steel pipe according to the present invention.

Figure 3 shows an installation example of the external reinforcing pipe according to the present invention.

4A and 4B are cross-sectional views of hollow concrete piles each having a steel pipe embedded therein according to the present invention.

5a and 5b show other examples of hollow concrete piles according to the invention.

Figures 6a and 6b shows examples of applications (head reinforcement, connecting means) of the external reinforcement pipe according to the present invention.

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

100: hollow concrete pile

110: concrete for hollow concrete piles

200: steel pipe 210: through hole

220: Stud 230: Sleeve

240: Tightening nut 300: External reinforcement pipe

A:

Claims (7)

Hollow concrete pile 100 in the form of a hollow tube; And It is installed so as not to be exposed to the inside of the hollow concrete pile 100, the steel pipe 200 has a limited length so that the through-hole 210 is formed so that it can be disposed at any position inside the hollow concrete pile; , The hollow concrete pile 100 is to be produced by injecting the concrete concrete for hollow concrete pile 110 in a state that the steel pipe is placed in advance in the mold by using a PHC pile manufacturing equipment, On the surface of the steel pipe 100 is disposed so that the front end portion is exposed to contact with the surface of the hollow concrete pile 100 and the sleeve 230 is formed on the inner circumferential surface is formed, the fastening bolt 240 to the sleeve 230 Hollow concrete piles are embedded with a steel pipe formed with an outer reinforcing pipe 300 of the circular pipe shape is mounted by. According to claim 1, wherein the hollow concrete pile 100 and the steel pipe 200 is a hollow concrete pile embedded with a steel pipe to be formed of a hollow concrete pile in the form of a circular pipe. delete delete delete delete delete

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