KR101551130B1 - Connection parts for Composite Piles - Google Patents

Abstract

The present invention relates to a connecting unit of composite piles formed by integrally connecting a pre-tensioned spun high strength concrete pile (PHC) and a steel pipe pile and, more specifically, to a connecting unit of composite piles capable of accurately and easily arranging the center of the pile and the center of the steel pipe (so-called centering) to be coincided and firmly joining the PHC pile and steel pipe pile. The present invention relates to the connecting unit of the composite piles wherein the PHC pile and the steel pipe pile are joined. The present invention includes a first joining member formed on the upper part of the PHC pile and composed of a first fixing unit fixed to the top of the PHC pile, a slit unit formed on the first fixing unit and which is a groove with one open side, and supporting unit formed on the edge of the first fixing unit and including the open top formed on the open side of the slit unit to be extended upward; a second joining unit formed on the lower part of the steel pipe pile and composed of a second fixing unit fixed to the lower part of the steel pipe pile and a plate-shaped protruding unit formed on the second fixing unit and extended downward to be inserted into the slit unit; and a joining means for joining the first joining member and the steel pipe pile. The present invention provides the connecting unit for the composite piles characterized by joining and connecting the PHC pile and the steel pipe pile while the center of the PHC pile and the center of the steel pipe pile are coincided.

Description

Connection parts for Composite Piles

The present invention relates to a connection between a PHC pile and a composite pile formed integrally with a steel pipe pile, in which the center of the pile and the center of the steel pipe are matched to each other (a so-called "centering operation") And more particularly to a connection of a composite pile which allows a PHC pile and a rape pile to be firmly coupled.

PHC piles are widely used because of their low material cost and high tip bearing capacity. However, the PHC pile is weak against shear force and bending moment. On the other hand, the steel pile pile is uniform in material of the pile so that the resistance against the load is uniform over the entire length of the pile. In particular, the pile is superior in resistance to shear force and bending moment.

On the other hand, when calculating the bending moment according to the depth acting on the pile installed on the ground, bending stress and vertical stress act on the upper part of the pile, Only the normal stress acts on the bottom. Therefore, considering the bending moments according to the depth of the ground and the characteristics of each pile, the upper pile near the surface uses a steel pipe pile having high resistance against shear force and bending moment. In order to use PHC piles with relatively low material cost, a composite pile combining a PHC pile and a steel pipe pile has been proposed.

In the conventional composite pile, a cover plate (head protection plate) made of steel is installed on the head of the PHC pile constituting the lower pile, and the lower end of the steel pipe pile constituting the upper pile is welded to the cover plate of the PHC pile head. It is a simple structure that combines a pile with a steel pipe pile at the top. However, since such a conventional composite pile is subjected to a concentrated stress generated at the end portion of a steel pipe pile relatively small in comparison with the cross sectional area of the steel lid plate, the steel lid plate is deformed, The deformation of the end of the steel pipe pile occurs due to the force, which causes the PHC pile head to be damaged. Also, since the conventional composite pile has a structure in which the lower end of the steel pipe pile is welded simply on the steel lid plate, there is a limit in the coupling force between the PHC pile and the steel pipe pile, and therefore, the joint between the two piles is particularly vulnerable to shear force and bending moment .

In order to solve such a problem, Korean Patent No. 10-1010028 has been proposed. In this patent, the PHC pile is provided with a joint connecting port including a bottom plate and a vertical plate at the upper end thereof, and the PHC pile and the connecting port are integrally joined. And the lower end portion of the steel pipe pile is fitted and engaged in the gap between the formed stone substrate and the vertical plate. It is very difficult to insert a PHC pile and a steel pipe pile using welding or bolt / nut in a state where the lower end of a steel pipe pile is inserted into a gap between a stone substrate and a vertical plate.

This Korean Patent No. 10-1116389 is presented, but there is a disadvantage that it is practically very difficult to align the center of the PHC pile with the center of the steel pipe pile (centering operation). The pile is not the weight that a person can carry, so it is carried by a crane. For centering, the relatively lower pile is embedded in the ground, while the upper pile is lifted up by the crane and the two piles are joined by finding the proper position. When the wind is blown, the pile is moved by the wind Since a safety accident occurs when a moving pile is struck by a person, it is difficult for an operator to work due to the risk of a safety accident near the pile. For the centering work, three workers bind three ropes to a relatively upper pile, With the angle of 120 degrees being pulled tightly, some of the worker pulls the string with greater force or loosens the rope, finely changing the position of the pile and joining the lower pile and the upper pile together. It is very difficult to actually do this.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a pile of a composite pile, which is improved in structure in order to facilitate the work of aligning the center of a PHC pile with a steel pipe pile Thereby providing a coupling portion for a composite pile.

As a means for solving the above-mentioned problems,

The present invention relates to a composite pile coupling part in which a PHC pile and a steel pipe pile are coupled to each other in a composite pile combined with a PHC pile and a steel pipe pile.

A PHC pile, a PHC pile, a PHC pile, a PHC pile, a PHC pile, a PHC pile, a PHC pile, a PHC pile, Wherein the upper portion of the open portion of the slit portion includes an open support portion;

A second fixing part provided at a lower end of the steel pipe pile and fixed to a lower end of the steel pipe pile, and a second coupling part including a plate-like protrusion provided on the second fixing part and extending downward to be inserted into the slit part absence; And

A coupling means for coupling the first coupling member and the steel pipe pile; / RTI >

Wherein the coupling portion connects the PHC pile and the center of the steel pipe pile in a state where the center of the PHC pile and the steel pipe pile coincide with each other when the protrusion is inserted into the slit portion.

And a plate-like elastic plate provided at a portion where the first engagement member and the second engagement member abut each other and capable of being elastically deformed.

And a reinforcing member for reinforcing the rigidity of the first fixing part.

And a reinforcing plate of a steel material provided on the outer circumferential surface of the PHC pile under the first engaging member.

As the engaging means, bolts passing through the support portion and the steel pipe pile may be used.

It is preferable that there is a clearance between the gap of the slit portion and the protruding portion.

It is preferable that the length in the vertical direction between the projecting portions is longer than the length in the vertical direction of the support portion.

According to the present invention, it is possible to provide a coupling part for a composite pile having an effect of facilitating the work of matching the centers of the PHC pile and the steel pipe pile. In addition, when the elastic plate is provided at the connection portion, the elastic plate acts as a hinge, so that the moment acting on the steel pipe pile can be transmitted only to the axial force without transmitting to the PHC pile. As a result, the length of the expensive steel pipe pile can be reduced, The present invention provides a coupling portion for a composite pile which can be expected to have a reduced effect.

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is an exploded perspective view of a coupling portion for a composite pile according to one embodiment of the present invention.
2 is an exploded cross-sectional view of the coupling portion for a composite pile shown in FIG.
3 is an assembled sectional view of the coupling for a compound pile shown in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will now be described more fully with reference to the accompanying drawings, in which exemplary embodiments of the invention are shown.

FIG. 1 is an exploded perspective view of a coupling portion for a composite pile according to an embodiment of the present invention, FIG. 2 is a sectional view of the coupling portion for a composite pile shown in FIG. 1, Sectional view.

The coupling portion for a composite pile according to the present invention relates to a coupling portion where a PHC pile 1 and a steel pipe pile 2 are coupled to each other and a PHC pile 1 and a steel pipe pile 2 are coupled to each other.

The composition and disadvantages of the PHC pile (1) and the steel pipe pile (2) and the composite pile combined with the two are already described in the background art and are generally used at the time of the ground reinforcement work, so further explanation is omitted.

The coupling portion for a composite pile according to the present embodiment includes a first coupling member 10, a second coupling member 20, a coupling means 30, an elastic plate 40, and a reinforcing plate 50.

The first coupling member 10 is provided at the upper end of the PHC pile 1 and includes a first fixing part 11, a slit part 12, a supporting part 13 and a reinforcing member 14.

The first fixing part 11 is configured to be fixed to the PHC pile 1 by DP. In the present embodiment, for the sake of material saving, it is also possible to manufacture a plate-like shape although it is an annular shape having a slit portion 12 at the center as shown in Fig.

The slit portion 12 is a groove formed in the center of the first fixing portion 11 so as to be elongated in one direction, and one side is open. And a portion denoted by reference numeral 12a in the drawing is a portion that is opened.

As shown in FIG. 3, the support portion 13 is configured to extend upward at the rim of the first fixing portion 11 so as to be coupled with the lower end portion of the steel pipe pile 2 wrapped therebetween, The upper portion of the open portion 12a of the slit portion 12 is open.

The reinforcement member 14 is configured to reinforce the rigidity of the first fixing portion 11 and includes a plurality of plates connecting the outer edge of the first fixing portion 11 and the slit portion 11 to each other.

The second joining member 20 is provided at a lower end of the steel pipe pile 2 and includes a second fixing portion 21 and a protrusion 22.

The second fixing part 21 is fixed to the lower end of the steel pipe pile 2. The second fixing part 21 can be formed in the form of a plate or a ring. If necessary, the reinforcing member (not shown) can reinforce the rigidity.

The protrusion 22 is provided on the second fixing part 21 and can be inserted into the slit part 12.

A gap is formed between the protrusions 22 and the slits 12 so that the protrusions 22 can be inserted into the slits 12 easily.

The length d1 of the protrusion 22 is longer than the length d2 of the support portion 13. The effect of the protrusion 22 will be described later.

The coupling member 30 is a member for coupling the first joint member 10 and the steel pipe pile 2 to each other and has a structure in which the support portion 13 of the first coupling member 10 and the bolt to be. For this purpose, screw grooves (31, 32) are respectively formed in the support portion (13) and the steel pipe pile (2).

The elastic plate 40 is provided at a portion where the first engaging member 10 and the second engaging member 20 abut each other and can be elastically deformed, and a rubber plate or the like can be used as the plate-like structure. In this embodiment, as shown in FIG. 2, the first engaging member 10 may be provided on the side of the second engaging member 20 while being provided on the first engaging member 10 side.

The reinforcing plate 50 reinforces the rigidity of the PHC pile 1 as a reinforcing plate of steel provided on the outer peripheral surface of the PHC pile 1 below the first engaging member.

Hereinafter, a description will be given of a method of coupling the PHC pile 1 and the steel pipe pile 2 by using the above-described structure, thereby explaining the functions, actions, and effects of each structure.

The PHC pile 1 is provided at the upper end thereof with a first engaging member 10 and the lower end of the steel pipe pile 2 is provided with a second engaging member 20 so that the PHC pile 1 and the steel pipe pile 2, 1 coupling member 10 and the second coupling member 20 to each other.

The coupling between the first coupling member 10 and the second coupling member 20 is first carried out by inserting the protruding portion 22 into the slit portion 12 and aligning the center of the PHC pile 1 with the center of the steel pipe pile 2 And fasten the bolt which is the coupling means (30).

The first method of inserting the protrusion 22 into the slit 12 is to align the center of the lower pile with the PHC pile 1 and the steel pipe pile 2 at a certain distance, .

The second method is to slide the steel pipe pile 2 located at the upper part in the state where the projecting part 22 is partially inserted into the open end 12a of the slit part 12 The lower end portion of the steel pipe pile 2 is in a state of being wrapped by the support portion 13 as shown in FIG. 1B. In this state, the centers of the pile 1 and the steel pipe pile 2 are the same. When working in this way, the center of the PHC pile (1) and the center of the steel pipe pile (2) can be matched much simpler than the composite pile described in the background art.

Since the length of the protruding portion 22 is longer than the length of the support portion 13, the protruding portion 22 is partially inserted into the open end 12a of the slit portion 12, The projected portion 22 can still be inserted into the slit portion 12 even when the pillar 2 is mounted on the support portion 13 and the steel pipe pile 2 is pushed in the proper direction in this state, The center of gravity can be matched. Of course, there is no problem even if the length of the projecting portion 22 is not longer than the length of the supporting portion 13. [ The upper portion of the open portion 12a of the slit portion 12 of the support portion 13 is open so that the projected portion 22 is inserted into the opened portion of the support portion 13 to slide the steel pipe pile 2 and the PHC pile 1 The centers may be matched.

Meanwhile, a gap (preferably about several millimeters) is provided between the protruding portion 22 and the slit portion 12 so that insertion can be facilitated.

3, when the lower end portion of the steel pipe pile 2 is wrapped around the support portion 13 of the first connection member 10, the bolt as the coupling means 30 is fastened to the PHC pile 1, And the coupling of the steel pipe pile 1 is completed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of the composite pile.

1: PHC pile 2: Steel pipe pile
10: first engagement member 20: second engagement member
11: first fixing part 12: slit part
13: Support part 21: Second fixing part
22: protrusion 30: engaging means
40: elastic plate 50: reinforcing plate

Claims (7)

The present invention relates to a composite pile coupling part in which a PHC pile and a steel pipe pile are coupled to each other in a composite pile combined with a PHC pile and a steel pipe pile.
A first fixing part provided at an upper end of the PHC pile and fixed to an upper end of the PHC pile, a slit part formed integrally with the first fixing part and bent downward, A first coupling member which is integrally provided with the first fixing portion and extends upward and includes a slit portion extending from the first supporting member and the bolt hole, the bolt hole being provided in the supporting member and penetrating the bolt;
A second fixing part provided at a lower end of the steel pipe pile and fixed to a lower end of the steel pipe pile, and a second fixing part fixed to the second fixing part so as to be integrated with the second fixing part, A second engaging member including a plate-shaped projection; And
And a bolt threaded through a bolt hole of the first coupling member and fastened to a thread groove formed in a steel pipe pile coupled with the first coupling member,
The PHC pile and the steel pipe pile are connected to each other by the bolt being fastened to the thread groove formed in the steel pipe pile in a state where the protrusion is inserted into the slit portion and the center of the PHC pile and the center of the steel pipe pile coincide with each other. Joints for piles.
The method according to claim 1,
Further comprising a plate-like elastic plate provided at a portion where the first engaging member and the second engaging member contact each other and capable of elastically deforming. The method according to claim 1,
And a reinforcing member for reinforcing the rigidity of the first fixing part.
The method according to claim 1,
And a reinforcing plate of a steel material provided on the outer circumferential surface of the PHC pile under the first engaging member.
delete The method according to claim 1,
Wherein a clearance is formed between the gap of the slit portion and the protrusion.
The method according to claim 1,
Wherein the length of the protrusions in the up-and-down direction is longer than the length of the support in the up-and-down direction.

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