KR102553965B1 - Pile Reinforcement Method for Structural Foundation - Google Patents

Abstract

The present invention is a structure foundation capable of securing resistance to punching shear through pile reinforcement of existing and new structure foundations, as well as preventing safety accidents in the event of lifting of the expanded structure or pile press-in during the construction of the expanded structure The purpose is to provide a pile reinforcement method for
In order to achieve the above object, the pile reinforcement method for a structure foundation according to the present invention installs a lower horizontal reinforcing bar network on the foundation, and installs an upper horizontal reinforcing bar network at a certain interval upward on the lower horizontal reinforcing bar network. Step (S 1); A step of fixing and installing an anchor between the lower horizontal reinforcing bar network and the upper horizontal reinforcing bar network (S2); Mounting a steel pipe having a certain diameter and length inside the anchor (S 3); arranging a press-fitting means on top of the steel pipe, and fixing the press-fitting means on top of the anchor via a fastening means (S4); Pressing the steel pipe down to a predetermined depth using a press-fitting means (S5); Forming a filling pile by filling the inside of the steel pipe with concrete (S6); It is characterized in that it consists of a step (S7) of forming an expansion structure 90 by pouring and curing concrete around the steel pipe.

Description

Pile Reinforcement Method for Structural Foundation}

The present invention relates to a pile reinforcement method for structure foundations, and in particular, it is possible to secure resistance to punching shear through pile reinforcement of existing and new structure foundations, as well as safety when lifting or pushing piles of expanded structures during construction of expanded structures It is about a pile reinforcement method for the foundation of a structure that can prevent accidents in advance.

In general, when settlement occurs in a constructed structure and the foundation needs to be reinforced, a method of injecting cement milk or mortar into the ground has been mainly used.

However, the conventional injection method for injecting cement milk or mortar as described above has problems in that it is difficult to secure construction quality and only suppresses additional settlement.

Accordingly, in order to solve the above problems, a structure raising method by registered patent 10-0807810 foundation reinforcement has been proposed.

The above-described conventional structure raising method by foundation reinforcement is a method of raising a structure using an indentation body, comprising the steps of excavating around the foundation of the structure; Installing an anchor bar including a reinforcing bar on the side of the structure foundation; Install the hollow pipe in the vertical direction on the side of the foundation of the structure, assemble the foundation reinforcement to be assembled with the anchor bar, assemble the lower reaction sphere including the reinforcing bar around the hollow pipe, and pour concrete so that the upper end of the lower reaction sphere is exposed. to form an expanded reinforcement foundation; connecting the lower end of the upper reaction sphere to the upper end of the lower reaction sphere and fixing the upper end of the upper reaction sphere to the upper support body to install a reaction force support body; After setting the press-fitting body in the press-fitting hole formed by removing the hollow pipe, installing and operating a press-fitting means between the upper end of the press-fitting body and the upper support to press-fit the press-fitting body into the lower part of the structure; It is characterized in that it consists of a step of lifting the structure by installing a lifting means on the upper part of the press-fitting body.

In the conventional structure raising method by foundation reinforcement consisting of the steps described above, it is possible to press in a pile from the outside of the structure while checking the bearing capacity of the structure to raise the structure in which the settlement has occurred, and the expanded foundation is formed in the structure to the depth of the ground Even if there is, there is an effect of raising the structure in which settlement has occurred.

However, in the conventional structure lifting method by foundation reinforcement consisting of the steps described above, since the upper end of the indentation body is formed at a position close to the upper surface of the expanded reinforcing foundation, the transfer load is inevitably concentrated on the upper end of the indentation body, so punching There was a problem that cracks occurred on the upper surface of the expanded reinforcement foundation due to shear.

Registered Patent 10-0807810

Accordingly, the present invention has been devised to solve the above-mentioned problems, and it is possible to secure resistance to punching shear through pile reinforcement of existing and new structure foundations, as well as to lift the expanded structure during construction of the expanded structure The purpose is to provide a pile reinforcement method for the foundation of a structure that can prevent safety accidents during press-in of piles or piles.

In order to achieve the above object, the pile reinforcement method for a structure foundation according to the present invention installs a lower horizontal reinforcing bar network on the foundation, and installs an upper horizontal reinforcing bar network at a certain interval upward on the lower horizontal reinforcing bar network. Step (S 1); A step of fixing and installing an anchor between the lower horizontal reinforcing bar network and the upper horizontal reinforcing bar network (S2); Mounting a steel pipe having a certain diameter and length inside the anchor (S 3); arranging a press-fitting means on top of the steel pipe, and fixing the press-fitting means on top of the anchor via a fastening means (S4); Pressing the steel pipe down to a predetermined depth using a press-fitting means (S5); Forming a filling pile by filling the inside of the steel pipe with concrete (S6); It is characterized in that it consists of a step (S7) of forming an expansion structure 90 by pouring and curing concrete around the steel pipe.

As described above, the pile reinforcement method for structure foundation according to the present invention has the following effects.

First, the present invention can solve the punching shear problem that occurs during the construction of the expanded structure on the foundation, and has the effect of reliably settling through the construction of anchors and steel pipes.

Second, the present invention forms a square-shaped opening in the middle of the lower horizontal reinforcing bar network and the upper horizontal reinforcing bar network, that is, in a state in which the reinforcement is avoided, to secure the installation position of the anchor and the steel pipe, thereby avoiding interference with the reinforcing bars. there is.

Third, in the present invention, anchor support brackets are welded or mounted on the reinforcing bars of the lower horizontal reinforcing bar network and the upper horizontal reinforcing bar network, thereby preventing the anchor's position change or lifting due to concrete placement and supporting the steel pipe in a stable state. there is.

1a to 1f are construction cross-sectional views showing a state in which the pile reinforcement method for a structure foundation according to the present invention is installed on an existing foundation;
Figures 2a to 2f is a construction perspective view showing a state in which the pile reinforcement method for the structure foundation according to the present invention is installed in a new installation.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

[In case of applying the present invention to the existing foundation]

Figures 1a to 1f is a construction diagram showing the construction sequence of the pile reinforcement method for the structure foundation according to the present invention.

As shown in these drawings, in the pile reinforcement method for structure foundation according to the present invention, the lower horizontal reinforcing bar network 20 is installed on the foundation 10, and the lower horizontal reinforcing bar network 20 is upwardly spaced at regular intervals. Installing the upper horizontal reinforcing bar network 30 in a spaced state (S 1); A step of fixing and installing an anchor 40 between the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 (S2); Mounting a steel pipe 50 having a certain diameter and length inside the anchor 40 (S 3); arranging a press-fitting means 60 on top of the steel pipe 50, and fixing the press-fitting means 60 to the top of the anchor 40 via a fastening means 70 (S 4); Pressing the steel pipe 50 down the foundation 10 to a predetermined depth with a press-fitting means 60 (S 5); Forming a filling pile 80 by filling concrete inside the steel pipe 50 (S6); Forming an expanded structure 90 by pouring and curing concrete around the steel pipe 50 (S7).

That is, the pile reinforcement method for the structure foundation according to the present invention includes the steps of installing the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 (S 1); Anchor 40 installation step (S 2); Steel pipe 50 mounting step (S 3); Pressing means 60 fixing step (S 4); Steel pipe press-fitting step (S 5); Charging pile 80 forming step (S 6); It is characterized in that the structure foundation 10 is reinforced with the steel pipe 50 by sequentially implementing the expansion structure 90 forming step (S 7).

Here, the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 installation step (S 1) installs the lower horizontal reinforcing bar network 20 by arranging reinforcing bars vertically and horizontally on the foundation 10, and the lower horizontal reinforcing bar network 20 is installed. The upper horizontal reinforcing bar network 30 is installed by arranging reinforcing bars vertically and horizontally on the horizontal reinforcing bar network 20 upward at a predetermined interval.

In particular, the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 are placed vertically and horizontally with ordinary reinforcing bars on the same line across the lower and upper parts, but the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network ( In the center of the inside of 30), square-shaped openings 25 and 35 are formed in a state in which reinforcement is avoided, so that the anchor 40 and the steel pipe 50 are installed to secure the installation position to avoid interference with the reinforcement.

Subsequently, in the anchor installation step (S2), the anchor 40 is fixedly installed in the square-shaped opening in the middle of the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30.

Here, the anchor 40 is composed of a steel bar or steel pipe 42 having a certain diameter and length, and a support bracket 44 is welded to the lower end of the steel bar or steel pipe 42.

That is, as the support bracket 44 of the anchor 40 is welded or mounted to the reinforcing bars of the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30, the position change of the anchor 40 or the anchor ( 40) to prevent lifting, and to support the steel pipe 50 in a stable state.

Then, in the steel pipe 50 mounting step (S3), the steel pipe 50 having a certain diameter and length is mounted inside the anchor 40.

Then, in the fixing step (S4) of the pressing means 60, the pressing means 60 is placed on the top of the steel pipe 50, and the pressing means 60 is placed on top of the anchor 40 via the fastening means 70. ) is the step of fixing.

Here, the press-in means 60 can be used regardless of any one capable of press-fitting the steel pipe 50.

Then, in the steel pipe 50 press-fitting step (S5), the steel pipe 50 is press-fitted by applying hydraulic pressure to a predetermined depth below the foundation 10 with a press-fitting means 60 such as a hydraulic jack.

Subsequently, in the step of forming the filling pile 80 (S6), the filling pile 80 is formed by filling the concrete inside the steel pipe 50.

Such a filling pile 80 later serves as a pillar.

Subsequently, the expansion structure 90 forming step (S7) includes the lower horizontal reinforcing bar network 20, the upper horizontal reinforcing bar network 30, the anchor 40, and the steel pipe 50 adjacent to the steel pipe 50, The expanded structure 90 is formed by pouring and curing the concrete.

As described above, the pile reinforcement method for the structure foundation according to the present invention can solve the punching shear problem that occurs when constructing an expanded structure on the foundation, can be firmly established through the construction of anchors and steel pipes, and lower horizontal reinforcement In the middle of the mesh and the upper horizontal reinforcing bar network, it is possible to avoid interference with the reinforcing bars by forming a square opening that avoids the placement of reinforcing bars, that is, to secure the installation position of the anchor and steel pipe, and to avoid interference with the reinforcing bars. By welding or mounting anchor support brackets to the reinforcing bars of the reinforcing bar network, it is possible to prevent the anchor from being moved or lifted due to concrete placement, and to support the steel pipe in a stable state.

[In case of applying the present invention to a new foundation]

2a to 2f are construction perspective views showing a state in which the pile reinforcement method for a structure foundation according to the present invention is installed in a new installation.

As shown in these figures, in the pile reinforcement method for structure foundation according to the present invention, the lower horizontal reinforcing bar network 20 is installed, and the upper horizontal reinforcing bar network 20 is spaced upward at a predetermined interval. Installing the reinforcing bar network 30 (S 1); A step of fixing and installing an anchor 40 between the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 (S2); Mounting a steel pipe 50 having a certain diameter and length inside the anchor 40 (S 3); arranging a press-fitting means 60 on top of the steel pipe 50, and fixing the press-fitting means 60 to the top of the anchor 40 via a fastening means 70 (S 4); Pressing the steel pipe 50 down the foundation 10 to a predetermined depth with a press-fitting means 60 (S 5); Forming a filling pile 80 by filling concrete inside the steel pipe 50 (S6); Forming an expanded structure 90 by pouring and curing concrete around the steel pipe 50 (S7).

That is, the pile reinforcement method for the structure foundation according to the present invention includes the steps of installing the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 (S 1); Anchor 40 installation step (S 2); Steel pipe 50 mounting step (S 3); Pressing means 60 fixing step (S 4); Steel pipe press-fitting step (S 5); Charging pile 80 forming step (S 6); It is characterized in that the expansion structure 90 forming step (S 7) is sequentially performed.

Here, in the step of installing the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 (S 1), the lower horizontal reinforcing bar network 20 is installed by placing reinforcing bars vertically and horizontally, and the lower horizontal reinforcing bar network 20 The upper horizontal reinforcing bar network 30 is installed by arranging reinforcing bars vertically and horizontally in a state of being spaced upward at a predetermined interval.

In particular, the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 are placed vertically and horizontally with ordinary reinforcing bars on the same line across the lower and upper parts, but the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network ( In the center of the inside of 30), square-shaped openings 25 and 35 are formed in a state in which reinforcement is avoided, so that the anchor 40 and the steel pipe 50 are installed to secure the installation position to avoid interference with the reinforcement.

Subsequently, in the anchor installation step (S2), the anchor 40 is fixedly installed in the square-shaped opening in the middle of the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30.

Here, the anchor 40 is composed of a steel bar or steel pipe 42 having a certain diameter and length, and a support bracket 44 is welded to the lower end of the steel bar or steel pipe 42.

That is, as the support bracket 44 of the anchor 40 is welded or mounted to the reinforcing bars of the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30, the position change of the anchor 40 or the anchor ( 40) to prevent lifting, and to support the steel pipe 50 in a stable state.

Then, in the steel pipe 50 mounting step (S3), the steel pipe 50 having a certain diameter and length is mounted inside the anchor 40.

Then, in the fixing step (S4) of the pressing means 60, the pressing means 60 is placed on the top of the steel pipe 50, and the pressing means 60 is placed on top of the anchor 40 via the fastening means 70. ) is the step of fixing.

Here, the press-in means 60 can be used regardless of any one capable of press-fitting the steel pipe 50.

Subsequently, in the steel pipe 50 press-fitting step (S5), the steel pipe 50 is press-fitted by applying hydraulic pressure to a predetermined depth below the foundation 10 with a press-fitting means 60 such as a hydraulic jack.

Subsequently, in the step of forming the filling pile 80 (S6), the filling pile 80 is formed by filling the concrete inside the steel pipe 50.

Such a filling pile 80 later serves as a pillar.

Subsequently, the expansion structure 90 forming step (S7) includes the lower horizontal reinforcing bar network 20, the upper horizontal reinforcing bar network 30, the anchor 40, and the steel pipe 50 adjacent to the steel pipe 50, The expanded structure 90 is formed by pouring and curing the concrete.

As described above, the pile reinforcement method for the structure foundation according to the present invention can solve the punching shear problem that occurs when constructing an expanded structure on the foundation, can be firmly established through the construction of anchors and steel pipes, and lower horizontal reinforcement In the middle of the mesh and the upper horizontal reinforcing bar network, it is possible to avoid interference with the reinforcing bars by forming a square opening that avoids the placement of reinforcing bars, that is, to secure the installation position of the anchor and steel pipe, and to avoid interference with the reinforcing bars. By welding or mounting anchor support brackets to the reinforcing bars of the reinforcing bar network, it is possible to prevent the anchor from being moved or lifted due to concrete placement, and to support the steel pipe in a stable state.

Preferred embodiments described in the detailed description of the present invention are illustrative and not limiting, the scope of the present invention is shown by the appended claims, and all modifications that fall within the meaning of those claims do not apply to the present invention. will be included

10: base 12: anchor bar
20: lower horizontal reinforcing bar network 25: opening
30: upper horizontal reinforcing bar network 35: opening
40: anchor 42: steel bar or steel pipe
44: support bracket 50: steel pipe
60: pressing means 70: fastening means
80: charging pile 90: expansion structure

Claims (6)

Installing the lower horizontal reinforcing bar network 20 on the foundation 10 and installing the upper horizontal reinforcing bar network 30 upwards at a predetermined interval on the lower horizontal reinforcing bar network 20 (S 1) ; A step of fixing and installing an anchor 40 between the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 (S2); Mounting a steel pipe 50 having a certain diameter and length inside the anchor 40 (S 3); arranging a press-fitting means 60 on top of the steel pipe 50, and fixing the press-fitting means 60 to the top of the anchor 40 via a fastening means 70 (S 4); Pressing the steel pipe 50 down the foundation 10 to a predetermined depth with a press-fitting means 60 (S 5); Forming a filling pile 80 by filling concrete inside the steel pipe 50 (S6); Forming an expanded structure 90 by pouring and curing concrete around the steel pipe 50 (S7),
The lower horizontal reinforcing bar network 20 is installed by arranging reinforcing bars vertically and horizontally on the foundation 10, and the reinforcing bars are placed vertically and horizontally in a state spaced upward at a predetermined interval on the lower horizontal reinforcing bar network 20 so as to level the upper horizontal Install the reinforcing bar network 30,
The lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 are densely arranged with reinforcing bars on the same line across the lower and upper parts, but the inner center of the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 In the square-shaped openings 25 and 35, which avoid the reinforcement of the reinforcement, the installation position of the anchor 40 and the steel pipe 50 is secured to avoid interference with the reinforcement,
The anchor 40 is composed of a steel bar or steel pipe 42 having a certain diameter and length, and a support bracket 44 is welded to the lower end of the steel bar or steel pipe 42,
The support bracket 44 of the anchor 40 is welded to the reinforcing bars of the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30, preventing the anchor 40 from being moved or lifted due to concrete casting. , To support the steel pipe 50 in a stable state,
The steel pipe 50 is mounted inside the anchor 40, the press-fitting means 60 is placed on the top of the steel pipe 50, and the anchor 40 is press-fitted through the fastening means 70 on top. The means 60 is fixed, and the press-fitting means 60 presses the steel pipe 50 by applying hydraulic pressure to a predetermined depth below the foundation 10 with a press-fitting means 60 such as a hydraulic jack,
Concrete is filled inside the steel pipe 50 to form a filling pile 80, and the filling pile 80 serves as a pillar later,
An expanded structure 90 is formed by pouring and curing concrete, including the lower horizontal reinforcing bar network 20, the upper horizontal reinforcing bar network 30, the anchor 40, and the steel pipe 50 adjacent to the steel pipe 50. Pile reinforcement method for the foundation of a structure, characterized in that. delete delete Installing the lower horizontal reinforcing bar network 20 and installing the upper horizontal reinforcing bar network 30 upwards at a predetermined interval on the lower horizontal reinforcing bar network 20 (S 1); A step of fixing and installing an anchor 40 between the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 (S2); Mounting a steel pipe 50 having a certain diameter and length inside the anchor 40 (S 3); arranging a press-fitting means 60 on top of the steel pipe 50, and fixing the press-fitting means 60 to the top of the anchor 40 via a fastening means 70 (S 4); Pressing the steel pipe 50 down the foundation 10 to a predetermined depth with a press-fitting means 60 (S 5); Forming a filling pile 80 by filling concrete inside the steel pipe 50 (S6); Forming an expanded structure 90 by pouring and curing concrete around the steel pipe 50 (S7),
The lower horizontal reinforcing bar network 20 is installed by arranging reinforcing bars vertically and horizontally on the foundation 10, and the reinforcing bars are placed vertically and horizontally in a state spaced upward at a predetermined interval on the lower horizontal reinforcing bar network 20 so as to level the upper horizontal The reinforcing bar network 30 is installed, and the lower horizontal reinforcing bar network 20 and the upper horizontal reinforcing bar network 30 are densely placed with reinforcing bars on the same line across the lower and upper parts, but the lower horizontal reinforcing bar network 20 and the upper In the center of the horizontal reinforcing bar network 30, square-shaped openings 25 and 35 are formed to avoid the reinforcement of the reinforcing bars, so that the anchor 40 and the steel pipe 50 are secured in the installation position to prevent interference with the reinforcing bars. The anchor 40 is composed of a steel bar or pipe 42 having a certain diameter and length, and a support bracket 44 is welded to the lower end of the steel bar or steel pipe 42, and the lower horizontal reinforcing bar The support bracket 44 of the anchor 40 is welded to the reinforcing bars of the net 20 and the upper horizontal reinforcing bar network 30, preventing the anchor 40 from being moved or lifted due to concrete casting, and maintaining a stable state. To support the steel pipe 50,
The steel pipe 50 is mounted inside the anchor 40, the press-fitting means 60 is placed on the top of the steel pipe 50, and the anchor 40 is press-fitted through the fastening means 70 on top. The means 60 is fixed, and the press-fitting means 60 presses the steel pipe 50 by applying hydraulic pressure to a predetermined depth below the foundation 10 with a press-fitting means 60 such as a hydraulic jack,
Concrete is filled inside the steel pipe 50 to form a filling pile 80, and the filling pile 80 serves as a pillar later,
An expanded structure 90 is formed by pouring and curing concrete, including the lower horizontal reinforcing bar network 20, the upper horizontal reinforcing bar network 30, the anchor 40, and the steel pipe 50 adjacent to the steel pipe 50. Pile reinforcement method for the foundation of a structure, characterized in that.
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