KR20160015099A - Micropile reinforcement structure and Reinforcing method of foot concrete using it - Google Patents

Abstract

The present invention provides a micropile reinforcement structure, and a reinforcing method for foundation concrete using the same. The micropile reinforcement structure supports a load applied to a foundation concrete as the foundation concrete and the micropile integrally work when the foundation concrete is subsided. The micropile reinforcement structure prevents punching shear by the micropile and improves a support force of the micropile. To achieve this purpose of the present invention, the micropile reinforcement structure has a core hole on an upper surface of a subsided part of the foundation concrete to improve a support force of the foundation concrete when the foundation concrete is subsided. The micropile reinforcement structure bores the core hole to the ground and forms an expanded core hole wherein a width thereof is more expanded than the core hole from a bottom of the foundation concrete to the upper surface of a casing such that the micropile reinforcement structure is installed.

Description

Technical Field [0001] The present invention relates to a micropile reinforcing structure and a reinforced concrete structure using the same,

The present invention relates to a micro pile reinforcing structure for supporting and reinforcing a foundation concrete so that the foundation pile can be supported on the foundation concrete and the ground when the foundation concrete is settled, .

In the case of subsidence and cracking in the foundation concrete due to soft ground, etc., the foundation concrete is not structurally unstable because the load of the upper structure can not be transmitted safely to the ground, so the foundation concrete should have sufficient supporting force to support the building do.

FIG. 1 is a cross-sectional view of a prior art micro-pile reinforcing structure installed in a perforation hole, and FIG. 2 is an exploded perspective view of a prior art micro pile reinforcing structure, A circular core hole 104 is drilled to the ground 120 using a rod and bit of a hydraulic drill or perforator.

A circular casing 106 is installed around the core hole 104 formed in the ground 120 so that the micro pile 100 can be installed and the core hole 104 formed on the upper surface of the foundation concrete 110 is assembled The microfiber reinforcing structure is installed up to the ground 120 having a predetermined depth.

The micro pile 100 is formed with a continuous male screw on an outer circumferential surface of a steel bar. The micro pile reinforcing structure includes a lock nut 103, a plate 102, a coupler 101, And the micro pile reinforcing structure is installed in the core hole 104, a non-shrinkage mortar grout material 105 is injected around the core hole 104 to form a pile, Complete the basics.

The prior art resists the punching shear acting at the joint between the foundation concrete and the micropile reinforcing structure due to the coupling force between the plurality of plates and the non-shrinkage mortar grout, and the plate provided at a predetermined interval between the couplers of the micropile reinforcing structure The load acting on the foundation concrete is transferred to the microfiles to support the microfiles.

However, in the prior art, micro piles having the same diameter are installed on the foundation concrete and the ground, and are still vulnerable to the punching shear by the micro pile. When a large settlement occurs in the foundation concrete, There is a limit,

Therefore, it is necessary to develop a technique to prevent the settlement of the foundation concrete and to increase the supporting force of the micro pile since the supporting force of the foundation concrete may be damaged in the process of installing a plurality of micro piles in the foundation concrete.

The present invention relates to a method and apparatus for supporting a load acting on a foundation concrete by integrally acting a foundation concrete and a microfiber when the foundation concrete is settled and preventing a punching shear of the foundation concrete by a microfill, And a reinforcing method for reinforcing a foundation concrete using the reinforcing structure.

In order to accomplish the above object, the present invention provides a microwave oven comprising: a plurality of file reinforcement rods installed at predetermined intervals on a ring plate over a predetermined length downward from a bottom surface of a foundation concrete; and a spiral reinforcing bar wound around the file reinforcement rods, Forming a file reinforcement structure,

The micro-pile reinforcing structure is formed on the ground by forming an expanded core hole whose width is wider than the punched hole formed in the foundation concrete from the bottom surface of the foundation concrete to the upper surface of the casing, and injecting the shrinkage mortar grout material into the core hole of the foundation concrete And the micro pile reinforcing structure is formed so as to act as a short pillar for increasing the supporting force of the foundation concrete.

A micro pile reinforcing structure according to an embodiment of the present invention includes a micro pile (10) in which a male screw is continuously formed on an outer peripheral surface of a steel bar; A lock nut 19 fastened and fixed to the microfilm at a predetermined distance downward from the head of the microfiber 10;

A circular ring plate 14 is formed in the upper part of the lock nut 19 so that the micro pile 10 can be inserted therethrough and a circular ring plate 11);

The upper surface of the ring plate 11 is welded to the upper surface of the ring plate 11 at a predetermined distance along the concentric circle at a predetermined distance from the inner circumference of the ring plate 11 and the other end of the ring plate 11 is inclined A file reinforcement rope (12) formed with a predetermined length;

And a spiral reinforcing bar (13) which is spirally wound around the outer side of the file reinforcement rope (12) provided at a predetermined interval on the upper surface of the ring plate (11) from the lower end to the upper end and joined to the file reinforcement rope .

The method of reinforcing a foundation concrete using the micro pile reinforcing structure according to the present invention is characterized in that the base concrete 30 and the micro pile 10 are installed on the ground 40, );

Drilling a circular expanded core hole (17) having an enlarged core hole width so that a file reinforcing bar and a spiral reinforcing bar can be installed to a predetermined depth from a bottom surface of the foundation concrete (30);

Installing a casing (24) in the core hole (16) from a bottom surface of the expanded core hole (17) downward to a ground of a predetermined depth; Inserting the micro-pile reinforcing structure into the ground hole (40) of a predetermined depth by being inserted into the core hole (16) of the foundation concrete;

And injecting a non-shrinkage mortar grout material (18) into the circular core hole (16) of the foundation concrete.

The present invention is characterized in that an expanded core hole whose width is wider than a core hole formed in a foundation concrete is formed in a predetermined section in the ground and a microfiber reinforcing structure is provided in the expanded core hole, It is possible to increase the supporting force of the support member.

In addition, the micro-pile reinforcing structure is formed in the inverted-T shape on the bottom of the foundation concrete to support the pile foundation by supporting the foundation concrete, thereby preventing punching shear by micro pile. .

1 is a cross-sectional view showing a prior art micro-pile reinforcing structure being installed in a perforation hole
2 is an exploded perspective view of a prior art micro-
FIG. 3A is a cross-sectional view showing a micro-pile reinforcing structure, which is an embodiment of the present invention,
FIG. 3B is a plan view of FIG.
3C is a perspective view showing that a file reinforcing bar and a spiral reinforcing bar are installed on a ring plate of a micro pile reinforcing structure according to an embodiment of the present invention.
FIG. 3D is a perspective view showing a microfiber reinforcing structure according to an embodiment of the present invention. FIG.
FIG. 3E is a perspective view showing that a file reinforcing bar and a band reinforcing bar are installed on a ring plate of a micro pile reinforcing structure, which is an embodiment of the present invention.

The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which preferred embodiments of the invention are shown.

In order to increase the bearing capacity of the foundation concrete when sinking and cracks occur in the foundation concrete, a core hole is formed in the subsidence and cracks of the foundation concrete to penetrate the foundation to the ground, And the microfiber reinforcing structure is formed by forming the expanded core hole having the enlarged width so that the microfiber reinforcing structure acts as a short column supporting the load acting on the foundation concrete to increase the supporting force of the foundation concrete,

The micro-pile reinforcing structure is formed in an inverted T-shape so that the foundation concrete and the micro pile reinforcing structure integrally act to prevent ground settlement and prevent punching shear by micro pile.

FIG. 3A is a cross-sectional view of a micro pile reinforcing structure according to an embodiment of the present invention, and FIG. 3B is a plan view of FIG. 3A. The circular core hole 16 is drilled from the upper surface of the foundation concrete 30 to the ground 40 of a predetermined depth using a hydraulic drill or the like.

A circular expanded core hole 17 whose width is wider than that of the circular hole 16 is drilled so that the micro pile reinforcing structure can be installed from the bottom surface of the foundation concrete 30 to a predetermined depth.

The casing 24 is installed in the circular core hole 16 from the bottom surface of the expanded core hole 17 to the ground of a predetermined depth to prevent the gravel of the ground from flowing into the core hole 16, 10) can be safely installed.

The micro pile reinforcing structure is inserted into a core hole 16 formed in the upper surface of the foundation concrete 30 and is installed up to a predetermined depth of the ground 40. The pile reinforcing bars 12 and the spiral reinforcing bars 13 of the micro pile reinforcing structure, Holes 16 of the base concrete 30 while being expanded in an original state in the expanded core hole 17 while being moved in a contracted state while passing through the core hole 16 of the foundation concrete 30, A micro file 10 is installed.

The foundation of the foundation reinforcing the foundation concrete 30 is completed by injecting the non-shrinkage mortar grout material 18 into the circular core hole 16 on the upper surface of the foundation concrete 30, Thereby increasing the supporting force for supporting the foundation concrete 30.

Also, since the core hole portion of the foundation concrete and the extended core hole portion provided with the micro-file reinforcing structure are formed in an inverted T-shape, the punching shear phenomenon due to the micro pile of the foundation concrete is prevented, And the micro-file reinforcing structure integrally work together to suppress the subsidence of the ground.

FIG. 3C is a perspective view showing a file reinforcing bar and a spiral reinforcing bar provided on a ring plate of a micro pile reinforcing structure according to an embodiment of the present invention. FIG. 3D is a perspective view showing a micro pile reinforcing structure, 3E is a perspective view showing that a file reinforcement bar and a band reinforcing bar are installed on a ring plate of a micro pile reinforcing structure according to an embodiment of the present invention.

The microfiber reinforcing structure includes a microfiber 10 in which a male screw is continuously formed on an outer circumferential surface of a steel bar, a lock nut 19 fastened to the microfiber 10, A ring reinforcement 12 and a file reinforcement rope 12 which are welded at a predetermined interval to the inside of the upper surface of the ring plate 11 so as to be spirally wound from the lower end to the upper end, Is made up of a spiral reinforcing bar (13).

The lock nut 19 is fastened and fixed to a micro pile at a predetermined distance downward from the head of the micro pile 10. The ring plate 11 is installed on the lock nut 19, And a circular hollow portion 14 is formed therein so that the micro pile can be inserted and installed.

The ring reinforcement rope 12 is installed at a predetermined distance along a concentric circle at a predetermined distance from the upper surface of the ring plate 11 at an inner side of the ring plate 11. One end of the ring reinforcement rope 12 is welded to the upper surface of the ring plate 11, And is formed to have a predetermined length so as to be inclined so as to protrude outward from the circumference of the plate.

The spiral reinforcing bars 13 are installed around the outer circumference of the file reinforcement rope 12 provided at predetermined intervals on the upper surface of the ring plate 11 from the lower end to the upper end thereof in a spiral manner and welded to the file reinforcement rope 12, Not shown).

A circular band bar 15 may be used in place of the spiral bar 13 used in the micro pile reinforcing structure of the present invention and the band bar 15 may be provided on the upper surface of the ring plate 11, The outer side of the reinforcing bars 12 is a circular reinforcing bar provided at a predetermined interval from the lower end to the upper end and joined to the file reinforcement rope 12 by welding or bonding wires (not shown). The spiral reinforcing bars and the reinforcing bars are made of deformed reinforcing bars having a diameter of 6 mm or less.

10: Micro file 11: Ring plate
12: File Reinforcing Bar 13: Helical Reinforcement
14: hollow part 15:
16: Core hole 17: Expanded core hole
18: Non-shrink mortar grout 19: Rock nut
20: casing 30: foundation concrete
40: Ground
100: Micro file 101: Coupler
102: plate 103: lock nut
104: Core hole 105: No shrinkage mortar grout material
106: casing 110; basic concrete
120: Ground

Claims (3)

A micro pile (10) in which a male screw is continuously formed on an outer peripheral surface of a steel bar;
A lock nut 19 fastened and fixed to the microfilm at a predetermined distance downward from the head of the microfiber 10;
A circular ring plate 14 is formed in the upper part of the lock nut 19 so that the micro pile 10 can be inserted therethrough and a circular ring plate 11);
The upper surface of the ring plate 11 is welded to the upper surface of the ring plate 11 at a predetermined distance along the concentric circle at a predetermined distance from the inner circumference of the ring plate 11 and the other end of the ring plate 11 is inclined A file reinforcement rope (12) formed with a predetermined length;
And a spiral reinforcing bar (13) which is spirally wound around the outer side of the file reinforcement rope (12) provided at a predetermined interval on the upper surface of the ring plate (11) from the lower end to the upper end and joined to the file reinforcement rope Wherein the microfiber reinforcing structure is formed of a microfiber reinforcing structure. The spiral reinforcing bar (13) according to claim 1, wherein the spiral reinforcing bars (13) are circular reinforcing bars provided outside the file reinforcing bars (12) at predetermined intervals on the upper surface of the ring plate (11) 12. The micro pile reinforcing structure according to claim 1, wherein the reinforcing member is formed of a steel reinforcing material. Drilling a circular hole (16) in the foundation concrete to a depth of a predetermined depth so that the micro pile (10) can be installed on the foundation concrete (30) and the ground (40);
Drilling a circular expanded core hole (17) having an enlarged core hole width so that a pile reinforcing bar and a spiral reinforcing bar can be installed from a bottom surface of the foundation concrete to a predetermined depth;
Installing a casing (24) in the core hole (16) from the bottom surface of the expanded core hole (17) downward to the ground (40) to a predetermined depth;
Installing the microfiber reinforcing structure of claim 1 or claim 2 up to the ground 40 of a predetermined depth by being inserted into the core hole 16 of the foundation concrete;
And injecting a non-shrinkage mortar grout material (18) into the circular hole (16) of the foundation concrete. The method of reinforcing a foundation concrete using the micro pile reinforcing structure.

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