KR20160009386A - Precast concrete pile with sheath and the construction method therewith - Google Patents

Abstract

The present invention relates to a precast concrete (PC) pile with a sheath, overcoming the structural weakness and improving deteriorated workability caused by cutting of a head part and allowing the economical construction of the PC pile through connection with a pre-tensioned spun high strength concrete pile (PHC). The PC pile with the sheath comprises: the sheath connected to the end of an axial reinforcing bar of an internal reinforcing bar; and the PC pile formed to allow the internal reinforcing bar and the sheath to be embedded therein.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a PC pile having a sheath formed thereon,

The present invention relates to a PC pile having a sheath formed thereon and a method of constructing the same. More specifically, in the precast concrete pile (PC pile) in which the inner reinforcing steel is laid, it is possible to overcome the workability and structural weakness due to the cutting of the tofu, and to connect the PHC pile to the PC Pile, method of constructing the pile, and method of constructing a structure using the pile.

When the foundation (part) of an architectural or civil engineering structure is placed on a soft ground, the deep foundation is pushed up to the support layer to secure the support and stabilize the foundation. The types of piles are made of various materials such as wood, steel and concrete, and they are installed by various construction methods such as horseshoe plowing,

Among various types of piles, wood and precast concrete piles (PC piles) are low in economical efficiency and construction, and PHC piles, which have excellent construction, economical efficiency and stability, are mostly used in construction and civil engineering structures supporting low vertical force .

However, as shown in FIG. 1A, in a structure in which a horizontal load (H) such as a earth pressure or an earthquake load rather than a vertical load transfers a force such as an excessive horizontal displacement, a bending moment or a shearing force to the pile, the PHC pile has a low horizontal resistance The load was supported by using steel pipes or drilled piles mainly. However, the steel pipe pile has a disadvantage in that it is not economical due to the excessive cost of materials, and the drilled pile is applied to a large bridge (over 1.2m) on a marine bridge or deep depth foundation because of complicated construction and difficult management of materials.

In addition, to overcome the small horizontal resistance of PHC pile, the upper part, which is mainly used for bending and shear force, is composed of composite pipe with PHC pile combined with PHC pile, The composite pile is reinforced by reinforcing the reinforced concrete inside and reinforcing the concrete to reinforce the flexure and shear.

1B is a cross-sectional view of the connection between the conventional PC pile 10 and the foundation 30. That is, since the conventional PC pile 10 has to cut the inner reinforcing bar 11 and the concrete 13 together at the time of cutting the head, workability and workability are very low and the inner reinforcing bar 12 is cut from the upper surface of the PC pile 300, it is difficult to expect strong coupling with the base portion.

Therefore, it is difficult to control the length of the ground according to the support layer of the ground and the difficulty of hard coupling with the foundation, which is a disadvantage of the conventional PC pile, in spite of the advantages of easy resistance control by changing the amount of rebar according to the magnitude of the horizontal force ) To improve the workability, and to solve the problem of providing the economical and stable sheath of the PC pile and its construction method by connecting the PHC pile having excellent economic efficiency to the lower part of the PC pile having low lateral force It is a technical task.

In order to achieve the above object,

First, the PC pile is made of reinforced concrete. The reinforced concrete is placed inside the formwork and the concrete is placed inside the formwork. The concrete pile was constructed by placing the concrete on the floor without using the method of casting the concrete using the centrifugal force by rotating the form just like the PHC pile and opening the upper part of the form by placing the concrete on the floor. . Therefore, it is difficult to manufacture the PC pile in a circular shape by cutting the upper part of the pile, so that the present invention is not limited to the case where the PC pile is not deformed by cutting the upper part of the pile, Respectively.

Second, when the conventional PC pile is installed by penetration into the ground, the ground condition of the ground is different from the design condition depending on the construction location, and the depth of penetration is different. In this case, the head height is fixed to the foundation bottom surface by cutting the head portion. Since the inner reinforcing bar exists at the time of cutting the head, the work of cutting the inner reinforcing bar and concrete together is very difficult to work and the inner reinforcing bar is severed, There is no choice but to be in trouble.

Accordingly, the present invention predicts the head cutting portion in the PC pile so that the inner reinforcing bar is excluded at the head cutting portion, but the PC pile is formed so that the tube-shaped sheath is formed (the inner reinforcing bar is not present at the head cutting portion) . Since the PC pile formed with the sheath is formed of a sheath (thin steel plate) and a PC pile which are easy to cut, the PC pile (concrete part) is cut together with the sheath at the time of cutting the head, The inner reinforcing bar and the head reinforcing bar are connected to each other (using a socket connecting member such as a coupler), and an injection material such as a cement mortar is injected into the interior of the sheath so that the head reinforcing bar is used for strong coupling with the base.

Thirdly, in a state where the sheath and the PC pile are cut, the head reinforcing steel rod is inserted into the sheath so that the head reinforcing steel rod connected to the inner reinforcing steel rod extended at the end of the sheath is extended to the base portion, PC pile can be surely strong.

Fourth, the PC pile of the present invention can sufficiently cope with the resistance against the horizontal force near the surface due to the inner reinforcement, but it is important to resist the vertical force because the horizontal force is not large at deep depth below the ground surface. Therefore, the PC pile and the PHC pile are connected to each other because the economic strength is lowered as the reinforcement of the PC pile to resist the vertical force.

The PC pile and the PHC pile are welded to each other by connecting the connecting bands to each other, thereby ensuring sufficient connection performance.

The sheath-formed PC pile according to the present invention has an optimized cross-sectional shape and is advantageous not only for the base portion and the strong coupling but also for the adjustment of the length along the ground layer.

In addition, the PC pile having the sheath formed according to the present invention is inserted into the sheath after the head cutting, and can be easily used for the strong coupling with the foundation using the head reinforcing steel integrally connected by the inner reinforcing steel and the socket connecting hole.

In addition, PC sheathed pile of the present invention is connected with PHC pile to the upper part where the horizontal load is largely applied, and the upper part of the PC pile is designed to resist the horizontal load by controlling the amount of reinforcing steel, PHC piles developed to resist mainly are connected to ensure sufficient economical efficiency as a whole.

Fig. 1 is a view showing the bending moments generated in the base portion and the pile,
FIGS. 2A and 2B are views showing a method of manufacturing a PC pile having a sheath according to the present invention,
FIG. 2c is a view showing the operation of the PC pile having a sheath formed according to the present invention,
FIG. 2d is a perspective view showing the connection between the PC pile and the PHC pile,
FIGS. 2e and 2f are cross-sectional views of a PC pile and a foundation portion of the present invention,
3 is a detailed view of a PC pile having a sheath formed according to the present invention.
4A and 4B are flowcharts of a PC pile construction method in which a sheath is formed according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

[Production method of PC pile 100 having sheath formed]

2A and 2B, a method of manufacturing the PC pile 100 in which the sheath is formed according to the present invention can be understood.

Since the solid PC pile is not manufactured using the centrifugal force, unlike the PHC pile or the hollow PC pile, the body mold 220 is laid on the floor using the supporting block 222 in the longitudinal direction, And then the mold is demolded from the mold.

For example, in order to manufacture a PC pile having a circular section, the main body mold 220 is formed into a circular shape, and the upper part is horizontally cut to form a cut groove 221 in which concrete can be laid.

Therefore, when the final main body mold 220 is demolded, the upper end of the PC pile completed by forming the cut grooves 221 may not be formed into a desired circular shape by the incomplete placement surface A1.

The present invention is based on the consideration that the cutting groove 221 must be formed in the main body mold 220 for manufacturing the PC pile 100 (pre-cast reinforced concrete pile) The main body form 220 is formed to have a polygonal cross-sectional shape that is as close to a circular shape as possible with excellent sectional efficiency so that the shape of the main body form 220 becomes one side of the PC pile 100 having the final sheath.

For example, according to the PC pile 100 having a polygonal cross section such as an octagonal or a twelve as shown in FIG. 2A, the incompletely laid surface A1 may be formed, but the PC pile 100 are formed in the same manner as the other outer circumferential surface A2 of the PC pile 100 so that unexpected section change factors do not occur in the production of the PC pile 100 in which the sheath is formed. Thus, it can be seen that the PC pile 100 having a more efficient sheath can be designed and manufactured.

As shown in FIG. 2B, the inner reinforcement 110 is previously installed in the body mold 220. The inner reinforcement 110 is formed so that the reinforcing bars 111 are surrounded by the reinforcing bars 112 Able to know.

At this time, the inner reinforcing bar 110 is embedded by pouring concrete over the extended length of the PC pile 100 excluding the portion where the sheath is disposed, and the PC pile 100 having sheath formed therein is a solid PC pile As shown in FIG.

In addition, an air hole core rod 214 is disposed at the center of the body mold 220 to form the air hole 150 over the entire length of the final PC pile as shown in FIG. 2d.

Thus, the present invention allows the sheath 120 to be formed on the head of the PC pile, and the socket connecting port such as a coupler is inserted into the inner reinforcing bar 110 extending to the front end (lower end) of the sheath 120.

A socket connecting port such as a coupler is fastened to one end portion (upper end) of the axial reinforcing bar 111 of the inner reinforcing bar 110 which is laid on the main body mold 220 and the sheath 120 is fitted on the outer circumferential surface of the socket connecting port. The PC pile 100 having the sheath 120 formed when the body form 220 of the present invention is demolded can be manufactured by inserting the concrete into the body mold 220 and then placing the concrete.

Accordingly, it can be understood that the inner reinforcing bar 110 is not laid in the head where the sheath 120 is installed including the head cutting portion.

As shown in FIG. 2C, when cutting the portion where the sheath 120 is installed, since there is no inner reinforcing bar, it is possible to cut the PC pile easily, compared to cutting the inner reinforcing bar together.

As shown in FIG. 2B, the connecting band 130 is integrally formed at the tip of the PC pile 100 having the sheath formed therein. That is, the PC pile 100 having the sheath formed thereon is connected to another PC pile or a PHC pile in advance to form a connection band 130, which is integrally formed at the tip of the completed PC pile.

The connecting band 130 is composed of a front end finishing portion 131 formed with a center hole and a side band portion 132 formed perpendicularly to the outer surface of the front end finishing portion as shown in FIG. 2d. The axial finishing portion includes an axial reinforcing bar 111, And the side band portion 132 is installed to be supported by a fixing steel bar 133 coupled with an axial reinforcing bar. The connection band 130 is exposed at the tip of the PC pile 100 in which the finished sheath is formed.

[Connection between the PC pile 100 and the PHC pile 100a in which the sheath is formed according to the present invention]

As shown in FIG. 2D, the sheath 120 is formed on the head of the PC pile 100 having the sheath of the present invention, and the inner reinforcing bar 110 is not exposed in the sheath 120.

Further, it can be seen that air holes 150 are formed from the upper surface to the tip of the PC pile 100 on which the sheath is formed, and furthermore, the connecting band 130 is exposed at the tip.

In addition, the connecting part of another PC pile can be connected to the connection band 130 of the PC pile 100 of the present invention by welding or the like to overcome the limitation of length. In particular, The PHC pile 100a is connected to the connecting band 130 of the main body 100. [

The PHC pile 100a is a hollow pile, and in particular, a PC steel bar 110a is disposed therein, which is the most economical pile to bear the vertical force. The connecting portion 130a of the PHC pile 100a is brought into contact with the connecting band 130 of the present invention and then the PC pile 100 having the sheath of the present invention and the PHC pile 100a are integrally connected to each other.

The PC pile 100 having the sheath formed according to the present invention is connected to the PHC pile 100a so that the PC pile 100 having a sheath formed thereon can be designed to resist the horizontal load by controlling the amount of the inner reinforcement 100, and the PHC pile 100a, which mainly resists the normal force, is connected to the lower part, thereby ensuring the economical efficiency as a whole.

[PC pile 100 in which the base part 300 of the present invention is easily joined to the sheath 120]

FIGS. 2E and 2F are cross-sectional views illustrating the PC pile 100 and the base 300, respectively, in which the sheath is formed according to the present invention.

The sheath 120 is embedded in the PC pile at the head of the PC pile 100 where the sheath is formed and the sheath 120 is formed by cutting only the PC pile and the sheath 120 at a predetermined length. The height of the pile 100 becomes adjustable.

At this time, the length of the sheath 120 and the PC pile cut at this time is such that the upper surface of the cut sheath 120 is positioned above the ground surface of the ground G in the entire length of the sheath 120, So that it is advantageous.

Also, it can be seen that the connecting portion 130a of the PHC pile 100a is welded to the tip of the PC pile 100 with the sheath formed therebetween.

The casing 510 is inserted into the ground G in advance to form the perforation hole 520 and then the PC pile 100 in which a sheath is formed in the casing 510 100a) are connected to each other.

Further, the mortar (M, filler) is injected into the space between the casing 510 and the PC pile 100 (and, if necessary, the PHC pile 100a is connected) with the sheath formed thereon and the mortar (510) is slowly withdrawn and recovered.

The sheath 120 and a portion of the upper end of the PC pile are cut in accordance with the foundation bottom surface to expose the socket connection port formed at the lower end of the sheath 120. The lower end of the toe reinforcing bar 140 is inserted into the socket connection port, The injection material containing the cement mortar is injected into the interior of the sheath 120 to be closed.

The head reinforcing bar 140 is installed so as to extend upward so as to sufficiently secure a fixing length at the base portion by the head reinforcing bar integrally connected by the inner reinforcing bar 110 and the socket connecting hole.

The base reinforced concrete 140 is buried by placing the base concrete C so that the foundation 300 can be finally constructed so that the inner reinforcing bar 110 must be cut together only through cutting of the sheath 120 A PC having a base portion and a sheath formed by a head reinforcing bar 140 integrally connected to the inner reinforcing bar 110 by a socket connecting hole as shown in FIG. 2F, It is possible to easily and rigidly connect the pile 100 by securing a sufficient fixation length with the pile 100.

Further, the PC pile 100 having the sheath formed according to the present invention is formed as a pile which is most economical as a pile to bear the horizontal force, and is formed in a form advantageous for strong coupling with the foundation 300, The PHC pile 100a connected to the PHC pile 100a is located at a deep hole in the perforation hole and is formed as the most economical pile portion in the case of imposing the normal force, thereby providing an effective and economical pile.

[Operation of the detailed configuration of the PC pile 100 in which the sheath is formed according to the present invention]

3 is a detailed view of the operation of the air hole 150 in the PC pile 100 in which the sheath is formed according to the present invention.

First, the operation detail of the air hole 150 in the PC pile 100 having the sheath of the present invention will be described with reference to FIG. 3 as follows.

That is, the air hole 150 of the present invention is formed with the entire length of the PC pile after cutting the sheath 120 and the PC pile as shown in FIG.

At this time, the casing 510 is inserted into the ground to form the perforation hole 520. Depending on the field, a time difference occurs during the operation until the PC pile 100 having the sheath of the present invention is inserted into the casing.

At this time, in the case of a ground having a high groundwater level, groundwater flows into the perforation hole (520), and groundwater is filled in the bottom of the perforation hole.

If the PC pile 100 in which the sheath is formed is inserted into the perforation hole 520 filled with the ground water, the tip portion may be damaged by the water pressure as the ground water hits the ground.

Therefore, the air hole 150 formed at the tip of the PC pile 100 having the sheath of the present invention plays a role of preventing the groundwater from flowing into the PC pile 100 having the sheath formed therein. Thereby reducing the water pressure).

In addition, the air hole 150 is formed so that the diameter is not so large so that the structural performance of the PC pile 100 formed with the sheath and the base concrete are not necessarily leaked.

[Method of constructing a PC pile (100) having a sheath of the present invention]

4A and 4B are flowcharts of a method of constructing a PC pile 100 with a sheath of the present invention.

First, as shown in FIG. 4A, a casing 510 is inserted into the ground using a perforator or the like to form a perforation hole 520, and then a PC pile 100 having a sheath formed therein (if necessary, a PHC pile (100a) is connected) to be installed.

At this time, the cushioning material is installed on the upper surface of the PC pile 100 on which the sheath is formed, and the PC pile 100, on which the sheath is formed, is stuck to the tip of the perforation hole, Thereby stably penetrating the hole.

Next, the mortar (M, filler) is injected into the space between the casing 510 and the PC pile 100 (and, if necessary, the PHC pile 100a is connected) The casing 510 is slowly withdrawn and recovered.

The PC pile 100 having the sheath formed by hardening the mortar is filled between the perforation hole 520 and the PC pile 100 having the sheath formed therein and the PHC pile 100a connected thereto as needed The PHC pile 100a is connected) is completed.

Next, as shown in FIG. 4B, the sheath 120 of the PC pile 100 with the sheath formed therein and the PC pile are cut to make the height of the top surface of the PC pile 100 formed with sheath coincide with each other.

Next, the head reinforcing bar 140 is integrally connected (inserted) to the inner reinforcing bar 110 at the socket connecting opening exposed at the tip of the sheath 120, and an injection material such as a cement mortar is injected into the sheath 120 So that the sheath 120 is closed. Thus, the head reinforcing steel bar 140 can be securely fixed to the head of the PC pile 100 having the sheath formed therein, and the fixing length of the exposed inner reinforcing bar 110 can be sufficiently secured.

Next, the foundation concrete (C) is poured to form the foundation part (300) so that the head reinforcing steel (140) is embedded.

Therefore, it is possible to eliminate the workability of the conventional PC pile construction that requires cutting the inner reinforcing bars 110 together and the deterioration factor of the workability, and the inner reinforcing bar 110 and the toe reinforcing reinforcing bar 140 of the PC pile 100, So that an easy strong coupling with the PC pile 100 in which the base portion and the sheath are formed can be achieved.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

100: PC pile 100a: PHC pile
110: inner reinforcing bar
111: axial reinforcement 112:
120: Sheets
130: connection band of PC pile 130a: connection of PHC pile
140: tofu rebar 150: air hole
214: Air hole core rod
220: main body mold 221: cutting groove
300:
510: casing
520: Perforated hole C: Concrete for foundation

Claims (9)

A sheath 120 connected to the axial reinforcement 111 of the inner reinforcing bar 110; And
And a PC pile (100) in which the inner reinforcing bar (110) and the sheath (120) are embedded. The PC pile includes a PC pile and a sheath. The method according to claim 1,
And a sheath is formed at the end of the axial bracing bar 111 so that a sheath is formed to connect the sheath to the socket connecting hole. The method according to claim 1,
The connection pile 130 is formed at the tip of the PC pile 100 on which the sheath 120 is formed and the connection band 130a of the PHC pile is connected to the connection band 130 to connect the PC pile 100, A PC pile having a sheath formed such that the PHC pile 100a is integrally connected to the lower part thereof. 3. The method of claim 2,
The PC pile and the sheath 120 are cut at the time of cutting the head of the PC pile 100 in which the sheath is formed so that the head reinforcing bar 140 inserted in the sheath is connected to the socket connecting hole formed at the end of the axial reinforcing bar, A PC pile having a sheath formed to extend a reinforcing bar to the base part (300) to secure a fixing length. (a) a sheath (120) connected to an axial reinforcing end of an inner reinforcing bar in a perforation hole; And a PC pile formed to embed the inner reinforcing bar (110) and the sheath (120) into a PC pile (100) having a sheath formed therein;
(b) cutting the PC pile and the sheath 120 located at the head of the PC pile 100 with the sheath formed thereon;
(c) inserting the head reinforcing bar 140 into the sheath 120, connecting the reinforcing bar 140 with the socket connecting hole to connect the inner reinforcing bar 110, and injecting the injection material to fix the reinforcing bar 140;
(d) placing the base concrete (C) so that the head reinforcing steel (140) is embedded to form the foundation (300). 6. The method of claim 5,
In the step (a), a cushioning material is installed on the upper surface of the PC pile, and the sheath is formed so that the cushioning material is touched by the plowing so that the PC pile with sheath is penetrated into the perforation hole. 6. The method of claim 5,
In the step (a), the connection band of the PHC pile 100a is integrally connected to the connection band formed at the tip of the PC pile 100 having the sheath formed therein, and the PC stake having the sheath formed integrally with the PHC pile is formed in the perforation hole A method of constructing a PC pile with a sheath for penetration. 6. The method of claim 5,
In the step (a), the PC pile 100 having the sheath formed therein is manufactured using the body form 220,
The upper surface of the main body mold 220 is cut horizontally to form a cut groove 221 in which concrete can be poured. A pile surface A1 of the PC pile having the sheath formed by the cut groove 221 is formed in a sheath Wherein the PC pile is formed to have the same shape as the other outer circumferential surface (A2) of the formed PC pile. 9. The method of claim 8,
An air hole core rod 214 is installed to extend over the entire length of the PC pile so that concrete is poured through the cut groove 221 formed in the main body mold 220, A PC pile construction method in which a sheath is formed to demarcate a body mold to form an air hole (150) in a PC pile.

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