KR102509356B1 - Pile reinforcement structure and pile structure - Google Patents

Abstract

The present invention expands the main body portion having an extended diameter compared to the file; Spiral penetration wings installed on the outer circumferential surface of the expansion main body and penetrating the expansion main body into the ground while rotating; And, it is installed on the lower side of the pipe expansion main body, through the lower side of the entry pipe portion for guiding the pile to enter the inside of the expansion pipe main body; provides a reinforcing structure of the pile containing.

Description

Pile reinforcement structure and pile structure {PILE REINFORCEMENT STRUCTURE AND PILE STRUCTURE}

The present invention relates to a reinforcing structure and a pile structure of a pile having improved bearing capacity.

It should be noted that the contents described in this section simply provide background information on the present invention and do not constitute prior art.

Seismic design standards have been strengthened since the Gyeongju and Pohang earthquakes occurred. Due to the reinforcement of seismic design standards, interest in improving the horizontal displacement and lateral bearing capacity of piles is increasing. In particular, when planning site expansion or extension in existing sites where heavy objects such as mechanical facilities exist, construction through small-scale equipment Possibility and sufficient lateral bearing capacity may be required.

When constructing piles with small-scale equipment, the diameter of the piles that can penetrate or drive is limited, so the construction of helical piles or micro piles is inevitable, and it is difficult to secure sufficient lateral bearing capacity due to the limitations of the cross-sectional area of the piles.

Therefore, the technology of securing the lateral bearing capacity by increasing the cross-sectional area of the upper part of the pile is a technology that can secure sufficient lateral bearing capacity with small-scale equipment, and can be applied even when the improvement of the lateral bearing capacity of the existing pile is required. It is a versatile technology.

KR 10-0352983 B1

As an aspect, the present invention is to improve the lateral bearing capacity of the pile to reduce the amount of pile construction, thereby providing a reinforcing structure and pile structure for piles that can improve economics and workability.

As one aspect for achieving the above object, the present invention expands the main body portion having an expanded diameter compared to the file; Spiral penetration wings installed on the outer circumferential surface of the expansion main body and penetrating the expansion main body into the ground while rotating; An entry pipe portion installed on the lower side of the pipe expansion body portion and guiding the file to enter the inside of the pipe expansion body portion through the lower side; And, a facility coupling part installed on the upper side of the pipe expansion main body and forming a coupling part of a rotary drive facility for rotating the pipe expansion main body; including, wherein the facility coupling part is coupled to a rotation drive facility for rotating the pipe expansion main body. Rotating tube body; and an upper plate joined to the upper end of the tube expansion body, to which the lower end of the rotary tube is coupled to the second through hole formed in the central portion, and having a grout hole formed thereon.

Preferably, the expansion body portion may have an enlarged diameter twice or more than the diameter of the pile.

Preferably, the penetration wing portion may be installed in a lower region in the height direction of the expansion body portion.

Preferably, the entry pipe portion, the entry pipe body for guiding the file to enter the inside of the pipe expansion main body through the lower part; and a lower plate coupled to a lower end of the expansion body and coupled to an upper end of the entry tube to a first through hole formed in a central portion.

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Preferably, a coupling hole into which a transverse coupling pin of the rotary drive facility is inserted and fixed is formed in the rotating tube body, and a longitudinal coupling pin of the rotation drive facility may be inserted and fixed into the grout hole.

Preferably, the equipment coupling unit may further include an upper reinforcing plate for connecting and reinforcing between the rotating tube body and the upper plate.

As another aspect for achieving the above object, the present invention is a pile installed into the ground; The above-described reinforcing structure installed in the upper region of the pile to reinforce the lateral bearing capacity of the pile; and a grout installed inside the reinforcing structure to fix the pile.

According to one embodiment of the present invention, by improving the lateral bearing capacity of the pile to reduce the amount of construction of the pile, there is an effect of improving economic efficiency and workability.

1 is a perspective view of a reinforcing structure according to an embodiment of the present invention.
Figure 2 is a perspective view of the reinforcing structure of Figure 1 viewed from another direction.
3 is a cross-sectional view of a reinforcing structure according to an embodiment of the present invention.
FIG. 4 is a plan view in the direction I-I' of FIG. 3 .
FIG. 5 is a plan view in the direction II-II of FIG. 3 .
6 is a view showing a prototype in which the reinforcing structure of FIG. 1 is actually manufactured.
7a and 7b are diagrams illustrating a construction process of a pile structure according to an embodiment of the present invention.
8 is a view showing a state in which the pile structure according to an embodiment of the present invention is installed in the ground.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. However, the embodiments of the present invention can be modified in many different forms, and the scope of the present invention is not limited to the embodiments described below. In addition, the embodiments of the present invention are provided to more completely explain the present invention to those skilled in the art. The shapes and sizes of elements in the drawings may be exaggerated for clarity.

Hereinafter, the reinforcing structure 20 of the pile according to an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 8.

1 is a perspective view of a reinforcing structure 20 of a pile according to an embodiment of the present invention, FIG. 2 is a perspective view of the reinforcing structure 20 of a pile of FIG. 1 viewed from another direction, and FIG. 6 is a pile of FIG. 1 It is a drawing showing a prototype in which the reinforcing structure 20 is actually manufactured.

Hereinafter, components included in the reinforcing structure 20 of a pile according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2.

The reinforcing structure 20 of the pile according to an embodiment of the present invention may include a pipe expansion body 100, a penetration wing 200 and an entry pipe 300.

Expansion main body 100 may have a diameter that is expanded compared to the pile (10).

Expansion main body portion 100 may be hollow formed therein in the height direction, which is the longitudinal direction.

An entry tube unit 300 may be installed below the expansion tube main body unit 100.

For example, the pipe expansion main body 100 may be composed of a circular steel pipe having a larger diameter than the pile 10.

Penetration wing portion 200 is installed on the outer circumferential surface of the pipe expansion body portion 100, may be configured in a spiral to penetrate the pipe expansion body portion 100 into the ground (S) while rotating.

Penetration wing portion 200 may be installed so as to protrude in the lateral direction from the outer circumferential surface of the expansion tube body portion (100).

The penetration wing portion 200 is a taper section in which the protruding length protruding in the lateral direction from the expansion body portion 100 increases from the lowermost end of the penetration wing portion 200 to the upper portion so as to facilitate penetration into the ground (S) during rotation. can be formed.

The penetration wing part 200 has spiral blades installed at an angle, and when the pipe expansion main body 100 rotates, the penetration wing part 200 integrally fixed rotates together, and the pipe expansion body part 100 is placed on the ground (S). can intrude.

Penetration wing portion 200 may be installed in the lower area in the height direction of the expansion tube body portion (100).

Penetration wing portion 200 may be welded to the outer circumferential surface of the expansion tube body portion (100).

Referring to FIG. 3 , the entry pipe part 300 is installed on the lower side of the pipe expansion main body 100 and may guide the pile 10 to enter the inside of the pipe expansion main body 100 through the lower side.

The entrance pipe part 300 blocks the lower end of the pipe expansion main body 100 to prevent the ground (S) from flowing into the pipe expansion main body 100, and the pile 10 enters the inside of the pipe expansion main body 100 It is the part that forms the path to become.

The reinforcing structure 20 of the pile of the present invention may be made of a metal material such as steel.

The reinforcing structure 20 of the pile of the present invention has the effect of improving the lateral bearing capacity by expanding the diameter of the upper part of the pile 10.

The reinforcing structure 20 of the pile of the present invention can be applied when the lateral bearing capacity is insufficient in the planning stage of the pile 10 or when it is necessary to improve the lateral bearing capacity of the already constructed pile 10.

When the vertical bearing capacity required by the pile 10 is satisfied but only the lateral bearing capacity needs to be additionally secured, the reinforcing structure 20 of the pile of the present invention is installed on the pile 10 to reduce the construction amount of the pile 10 It can be reduced to improve economic feasibility and constructability, and it is possible to construct with small-scale equipment, so it can be effectively applied to various sites.

The expansion main body 100 may have an enlarged diameter twice or more than the diameter of the pile 10.

The expansion main body 100 has a diameter that is twice or more enlarged compared to the diameter of the pile 10, thereby sufficiently improving the lateral bearing capacity.

For example, when the diameter of the pile 10 is 200 mm, the diameter of the expansion main body 100 may be 400 mm or more.

The expansion body portion 100 is formed larger than the diameter of the pile 10 by 200 mm or more to sufficiently improve the lateral bearing capacity of the pile structure.

The expansion main body 100 may be installed at least in a height direction at least 10 times the diameter of the pile 10.

Referring to FIG. 3 , the penetration wing unit 200 may be installed in a lower area in the height direction of the tube expansion body unit 100 .

This is to install the reinforcing structure 20 of the pile in a state where the reinforcing structure 20 of the pile is installed in the pile 10 by quickly penetrating into the ground S.

Referring to FIGS. 3 and 4 , the entry tube unit 300 may include an entry tube body 310 and a bottom plate 330 .

The entry pipe body 310 serves to guide the file 10 to enter the inside of the pipe expansion body 100 through the lower part.

Referring to FIG. 4 , the entry pipe body 310 may be configured as a circular steel pipe and may have a smaller diameter than the pipe expansion main body 100 .

The inner diameter of the entry tube body 310 can be manufactured larger than the outer diameter of the pile 10 by about 50 mm.

In this way, the inner diameter of the entry pipe body 310 and the outer diameter of the pile 10 do not differ significantly, so that the ground (S) expands through the gap between the entry pipe body 310 and the pile 10 when penetrating into the ground (S). It can be prevented from entering the inside of the body portion 100 so that the inner space of the expansion body portion 100 remains hollow.

For example, the inner diameter of the entry tube body 310 can be manufactured larger than the outer diameter of the pile 10 by 50 to 60 mm.

Referring to FIG. 3 , the lower plate 330 may be bonded to the lower end of the tube expansion body 100, and the upper end of the entry tube body 310 may be bonded to the first through hole 331 formed in the central portion.

The lower plate 330 serves to couple the entry pipe body 310 to the lower side of the pipe expansion body portion 100.

The lower plate 330 may be welded in a state disposed in contact with the lower end of the expansion tube main body 100 .

Of course, although not shown, the lower plate 330 may be welded in a state in which it is disposed in contact with the inner diameter of the expansion tube main body 100.

A first through hole 331 is formed in the central portion of the lower plate 330 to allow the pile 10 to pass therethrough.

Of course, the first through hole 331 may be welded in a state where the upper end of the entry tube body 310 is inserted.

Referring to FIGS. 3 and 4 , the entry tube unit 300 may further include a lower reinforcing plate 350 .

The lower reinforcing plate 350 may be reinforced by connecting between the entry tube body 310 and the lower plate 330.

A plurality of lower reinforcing plates 350 may be radially installed on the outer circumferential surface of the entry tube body 310 .

For example, four lower reinforcing plates 350 may be radially disposed at an angle of 90 degrees to the outer circumferential surface of the entry tube body 310 .

The lower reinforcing plate 350 may be configured in a triangular shape, and the lower reinforcing plate 350 may be welded to the entry tube body 310 and the lower plate 330, respectively.

3 and 5, the reinforcing structure 20 of the pile may further include a facility coupling part 400.

Equipment coupling part 400 is installed on the upper side of the pipe expansion main body 100, and may form a coupling part of a rotary driving facility (not shown) for rotating the pipe expansion main body 100.

An entry pipe part 300 is installed on the lower side of the pipe expansion main body part 100, and an equipment coupling part 400 may be installed on the upper side.

Referring to FIGS. 3 and 5 , the facility coupling unit 400 may include a rotating tube body 410 and an upper plate 430 .

Rotating tube body 410 may be coupled to a rotary driving facility (not shown) for rotating the expansion tube main body 100.

Rotating tube body 410 may be composed of a circular steel tube, may have a smaller diameter than the tube expansion main body (100).

A coupling hole 411 through which a rotation drive facility (not shown) is coupled may be installed in the rotating tube body 410 in a transverse direction. At this time, a plurality of coupling holes 411 spaced apart in the height direction may be formed in the rotating body 410 .

The upper plate 430 is bonded to the upper end of the expansion tube main body 100, and the lower end of the rotating tube body 410 is bonded to the second through hole 431 formed in the central portion, and a grout hole 433 may be formed. there is.

The top plate 430 serves to couple the rotating tube body 410 to the upper side of the expansion tube main body 100.

The top plate 430 may be welded in a state disposed in contact with the inner diameter of the expansion tube main body 100.

Of course, although not shown, it may be welded in a state disposed in contact with the lower end of the expansion pipe main body 100.

A second through hole 431 is formed in the central portion of the upper plate 430, and the lower end of the rotary body 410 may be welded to the second through hole 431 while being inserted.

A plurality of grout holes 433 may be radially disposed around the second through hole 431 of the top plate 430 .

For example, four grout holes 433 may be radially arranged in the top plate 430 at an angle of 90 degrees.

The grout 30 may be poured into the tube expansion main body 100 through the grout hole 433 .

3 and 5, a coupling hole 411 into which a transverse coupling pin (not shown) of a rotary drive facility (not shown) is inserted and fixed is formed in the rotating body 410, and in the grout hole 433 A longitudinal coupling pin (not shown) of the rotary drive facility (not shown) may be inserted and fixed.

Accordingly, the rotary drive facility (not shown) is overlapped and fixed to the facility coupling part 400 in the transverse and longitudinal directions, so that the rotation drive facility (not shown) is more firmly fixed to the reinforcing structure 20 of the pile It has the effect of transmitting rotational force reliably in the state of

Referring to FIGS. 3 and 5 , the facility coupling unit 400 may further include an upper reinforcing plate 450 .

The upper reinforcing plate 450 may be reinforced by connecting between the rotating tube body 410 and the upper plate 430.

A plurality of upper reinforcing plates 450 may be radially installed on the outer circumferential surface of the rotating tube body 410 .

For example, four upper reinforcing plates 450 may be radially arranged at an angle of 90 degrees on the outer circumferential surface of the rotating body 410 .

The upper reinforcing plate 450 may be configured in a triangular shape, and the upper reinforcing plate 450 may be welded to the rotating body 410 and the upper plate 430, respectively.

Next, the file structure will be described in detail with reference to the drawings.

7A to 8 , the pile structure according to an embodiment of the present invention may include a pile 10, a reinforcing structure 20 of the pile, and a grout 30.

The pile 10 may be installed to penetrate the ground (S) through driving equipment or the like.

While the upper portion of the pile 10 is inserted through the lower portion of the reinforcing structure 20 of the pile, the upper region of the pile 10 may be disposed inside the reinforcing structure 20 of the pile.

The reinforcing structure 20 of the pile can be installed in the upper region of the pile 10 to reinforce the lateral bearing capacity of the pile 10.

The reinforcing structure 20 of the pile may be installed in a state in which the pile 10 is penetrated into the ground (S).

The reinforcing structure 20 of the pile is installed in the upper region in the height direction of the pile 10, and may serve to reinforce the supporting force of the pile 10 in the lateral direction.

The pile 10 is inserted through the lower portion of the reinforcing structure 20 of the pile, and the upper region of the pile 10 may be disposed inside the reinforcing structure 20 of the pile.

The grout 30 may be cast inside the reinforcing structure 20 of the pile to fix the pile 10.

The grout 30 may be poured into the reinforcing structure 20 of the pile in a state where the reinforcing structure 20 of the pile is installed in the upper region of the pile 10.

The grout 30 may fill the inner space between the reinforcing structure 20 and the pile 10 of the pile.

As the grout 30 is poured and hardened inside the pile reinforcing structure 20, the pile 10 and the pile reinforcing structure 20 are integrated, so that the load bearing capacity and bending stiffness of the pile structure can be greatly improved.

7a and 7b are views showing the construction process of a pile structure according to an embodiment of the present invention, and FIG. 8 is a view showing a state in which the pile structure according to an embodiment of the present invention is installed in the ground (S) am.

Referring to Figures 7a and 7b, the construction process of the pile structure of the present invention is described as follows.

First, the pile 10 may be installed by penetrating the ground S by driving equipment or the like.

Next, it is possible to install the reinforcing structure 20 of the pile on top of the pre-installed pile 10.

Next, in the state in which the reinforcing structure 20 of the pile is installed in the upper region in the height direction of the pile 10, the grout 30 is poured into the reinforcing structure 20 of the pile, and the pile 30 hardens while the grout 30 hardens. It is possible to fix the pile 10 disposed inside the reinforcing structure 20 of the.

The process of installing the reinforcing structure 20 of the pile to the pile 10 is described in more detail as follows.

When the upper end of the pile 10 is inserted into the entry pipe part 300 of the reinforcing structure 20 of the pile and the rotary drive facility coupled to the equipment coupling part 400 is rotated, the penetration wing part 200 rotates and the entry pipe part (300) and the pipe expansion main body 100 may be integrally penetrated into the ground (S).

For example, the upper end of the pile 10 and the reinforcing structure 20 of the pile may protrude upward from the ground S1. At this time, the top of the pile 10 may be disposed below the top plate 430 of the equipment coupling part 400.

In addition, it goes without saying that various embodiments of the reinforcing structure 20 of a pile having various embodiments described above can be applied to the pile structure of the present invention.

Therefore, the configuration of the pipe expansion body 100, the penetration wing 200, and the entry pipe of the pile reinforcing structure 20 utilized in the pile structure is the same as that of the pile reinforcing structure 20 as described above. A detailed description thereof is omitted to avoid redundancy.

Although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and variations are possible without departing from the technical spirit of the present invention described in the claims. It will be obvious to those skilled in the art.

10: file 20: reinforcing structure
30: grout 100: pipe expansion body
200: penetration wing part 300: entry pipe part
310: entry pipe 330: bottom plate
331: first through hole 350: lower reinforcement plate
400: equipment coupling part 410: rotating tube
411: coupling hole 430: top plate
431: second through hole 433: grout hole
450: upper reinforcement plate
S: ground S1: ground

Claims (10)

Expansion main body having a diameter extended compared to the pile;
Spiral penetration wings installed on the outer circumferential surface of the expansion main body and penetrating the expansion main body into the ground while rotating;
An entry pipe portion installed on the lower side of the pipe expansion body portion and guiding the file to enter the inside of the pipe expansion body portion through the lower side; and,
Including; installed on the upper side of the pipe expansion main body, and forming a coupling part of the rotation drive equipment for rotating the expansion pipe main body,
The equipment coupling part,
A rotating tube body coupled to a rotation drive facility for rotating the expansion tube body; and
A reinforcing structure of a pile comprising: an upper plate joined to an upper end of the expansion tube body, a lower end of the rotary tube coupled to a second through hole formed in a central portion, and a grout hole formed therein.
According to claim 1,
Reinforcing structure of the pile, characterized in that the expansion body portion has an enlarged diameter of at least twice the diameter of the pile.
According to claim 1,
The penetration wing portion is a reinforcing structure of the pile installed in the lower region in the height direction of the expansion body portion.
The method of claim 1, wherein the entry pipe unit,
An entry pipe body for guiding the file to enter the inside of the expansion pipe body through the lower part; and
A reinforcing structure of a pile including a lower plate joined to the lower end of the expansion main body and to which the upper end of the entry pipe is joined to the first through hole formed in the central portion.
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The rotary body is formed with a coupling hole into which the transverse coupling pin of the rotation drive equipment is inserted and fixed,
The reinforcing structure of the pile into which the longitudinal coupling pin of the rotary drive equipment is inserted and fixed into the grout hole.
The method of claim 1, wherein the facility coupling unit,
Reinforcing structure of the pile further comprising; an upper reinforcing plate for reinforcing by connecting between the rotating tube body and the upper plate.
Pile installed intrusively into the ground;
The reinforcing structure according to any one of claims 1 to 4 and 8 to 9 installed in the upper region of the pile to reinforce the lateral bearing capacity of the pile; and,
A pile structure including a grout that is poured into the reinforcing structure to fix the pile.

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