KR20200145243A - Helical pile - Google Patents

Abstract

The present invention relates to a helical pile. To this end, the helical pile includes: a pile main body made of a hollow shaft member; a helical blade coupled to an outer circumferential portion at a lower portion side of the pile main body; and an excavation head provided on a lower end portion of the pile main body. Accordingly, the helical pile can allow excavation to be easily implemented so that interpenetration can be smoothly performed and allow grouting liquid to be easily injected.

Description

Helical file {HELICAL PILE}

The present invention relates to a helical pile, and in particular, a discharge hole in the middle so that two or two rows of helical blades are provided in the pile body, and the outer and inner drilling blades are provided in a direction perpendicular to the bottom of the pile body. By allowing the excavation head to be provided, the grouting solution can be easily injected into the excavated ground while excavation is easily made to be reinforced.

In general, when a building or structure is constructed, the foundation work to reinforce the ground is preceded to support the upper structure according to the conditions of the ground or the load of the structure.

If the ground in contact with the structure, such as hard ground, has sufficient strength to support it, foundation work can be performed directly on it, but in the case of weak ground that is not, piles or ground to prevent subsidence After reinforcing the ground by performing designated work to improve the structure, foundation work is performed on it.

The piles constructed on the soft ground are classified into steel pipe piles, PC files, PHC files, etc., depending on the material, and are divided into steel plate piles, pipe piles, H-beam piles, etc. according to their shape and use, and pipe piles for soft ground This is commonly used.

Meanwhile, a helical pile equipped with a screw on the outer circumferential surface of a micropile is provided in a pile by attaching a spiral helix to a high-strength steel pipe pile to penetrate the ground through rotational motion and reinforce it with grouting. Excellent stability under compression and tensile loads can be ensured through the upper and lower ends or frictional support by the blade.

However, these helical piles are only reinforced in response to the compressive stress and tensile stress according to the load applied in the vertical direction, and there is a problem that it is very vulnerable to the tip support force according to the horizontal or shear force applied in the horizontal direction.

As a way to solve this problem, a helical pile of Korean Patent Publication No. 10-2016-0071805 (Jun. 22, 2016) was proposed, and the proposed helical pile protrudes in a spiral form at one end of the shaft portion formed with a pointed end. The shaft part is separated from the first helix part and the first helix part supported in the ground, and consists of a cylindrical part supporting the shaft in the ground and a coupling part fixing the cylindrical part to the shaft part. It is designed to cover both horizontal force or shear force, and tip resistance or pulling resistance applied to the pile, but in the construction process in which the helical pile is inserted into the ground, the end of the helical pile has a simple pointed shape. If there is rock, there is a problem in that the frictional force is increased.

In addition, due to this, there is a problem that the tip of the helical pile is easily worn and deformed.

And due to these problems, there is a problem that the initial ground excavation work and penetration cannot be performed smoothly.

Unexamined Patent Publication No. 10-2016-0071805 (2016.06.22)

In the present invention, the grouting solution is injected into the excavated ground so that the ground can be stably reinforced while the ground excavation operation is facilitated so that penetration can be made smoothly.

The present invention includes a file body 100 provided with a hollow shaft member; A helical blade 200 coupled to the lower outer periphery of the pile body 100; And an excavation head 300 provided at a lower end of the pile body 100.

In addition, the pile body 100 is provided with a pile joint 110 having the same inner diameter as the outer diameter of the pile body 100 at the upper end, the first discharge hole 120 is provided at a location spaced apart from the lower end to a predetermined height. In the pile joint 110, the lower portion of the hollow joint member 111 is fitted to the upper end of the pile body 100 to have a predetermined length and is coupled by a welding joint, and a female threaded portion joined therein to the hollow joint member 111 ( 112) is provided, and a join key 113 is provided on the outside, and the helical blade 200 is provided so that the blade member 210 having a rectangular cross section is wound once along the outer periphery of the pile body 100 However, the starting end 211 and the end 212 of the blade member 210 are provided to be spaced apart at a predetermined height (H), and the excavation guide 213 having an inclined form at the starting end 211 is It is characterized by being provided.

In addition, the excavation head 300 includes an outer excavation blade 320 provided to protrude downward on both sides of the cutout 310 which is cut to have an upper narrow light shape at the bottom of the pile body 100; A second discharge hole 330 made of four arranged at a certain interval or angle at a place spaced apart from the top of the cutout 310 at a certain height; A head reinforcing ring 340 provided to be fitted in an outer periphery between the upper portion of the cutout 310 and the discharge hole 330; A head reinforcing blade 350 provided between the outer periphery and the bottom of the head reinforcing ring 340 and an outer surface of the outer excavation blade 320; And an inner excavation blade 360 inserted into the inner excavation blade 320 and fixed, wherein the inner excavation blade 360 is a W-shaped lower part of the inner excavation blade body 361 having a square plate shape. The excavation piece 362 having a is integrally provided, and the excavation piece 362 is arranged in a direction perpendicular to the outer excavation blade 320 protruding downward from the lower end of the pile body 100.

The present invention can obtain an effect of preventing wear and deformation due to frictional force and frictional force generated at the tip of the excavation head during the ground excavation operation.

In addition, it is possible to obtain an effect that the penetration can be made smoothly.

And through this, the grouting solution can be easily injected into the excavated ground, thereby obtaining an effect of stably reinforcing the ground.

1 is a perspective view showing a helical pile according to the present invention.
Figure 2 is a perspective view showing a separate helical file according to the present invention.
Figure 3 is a bottom perspective view showing a helical pile according to the present invention.
Figure 4 is a longitudinal cross-sectional view showing a helical pile according to the present invention.

An embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a perspective view showing a helical pile according to the present invention, Fig. 2 is a perspective view showing a separate helical pile according to the present invention, and Fig. 3 is a bottom perspective view showing a helical pile according to the present invention , Figure 4 is a longitudinal sectional view showing a helical pile according to the present invention.

The helical pile according to the present invention is designed to smoothly penetrate while preventing the excavation resistance generated during the ground excavation operation. As shown in FIGS. 1 to 4, the pile body 100 ), a helical blade 200 and an excavation head 300 are provided to be included.

The pile body 100 is provided as a hollow shaft member and is provided to maintain optimal strength while reducing weight, and a helical blade 200 is coupled to the lower outer periphery of the pile body 100 And an excavation head 300 is provided at a lower end of the pile body 100.

The pile body 100 is provided with a pile joint 110 having the same inner diameter as the outer diameter of the pile body 100 at the upper end, and rotates by being coupled to a hydraulic rotating device provided at the boom tip of a backhoe (not shown). It is provided so that excavation can be performed in a press-in method, and is provided to solve stability problems and environmental problems due to noise and vibration generated during construction.

The pile body 100 is provided with a first discharge hole 120 at a location spaced apart from the lower end by a predetermined height so that the grouting liquid injected through the upper part can be discharged to the outside.

In the pile joint 110, the lower portion of the hollow joint member 111 is fitted to the upper end of the pile body 100 to a predetermined depth and joined by a welding joint, and a female screw portion tightened to a predetermined depth inside the hollow joint member 111 (122) is provided so that an inlet (PC) for injecting grouting liquid is screwed, as shown by a dashed-dotted line in the upper part of Fig. 4, and externally to a hydraulic rotating device. It is provided so that it can be combined stably.

The helical blade 200 is provided so that the blade member 210 having a rectangular cross section is wound once along the outer periphery of the pile body 100 to facilitate the excavation of the ground, thereby improving the support for the ground. The blade member 210 is provided so that the starting end 211 and the end 212 of the blade member 210 are spaced apart at a predetermined height (H) and twisted in a spiral shape. At this time, as the excavation guide 213 is provided to have an inclined shape, the start end 211 is provided to facilitate excavation.

One such helical blade 200 is provided at a place having a predetermined height from the lower end of the pile body 100, and another helical blade 200 is further provided at a place having a predetermined height from the helical blade 200. It is more preferable to be provided to have a double shape. This is to ensure that sufficient support power can be secured while making optimal excavation during excavation work. In this case, it is preferable that the first discharge hole 120 is positioned between the helical blade 200 provided in the upper and lower portions.

The excavation head 300 is such that the ground is excavated in the near-entry step, so that the outer excavation blades 320 protrude downward on both sides of the cutout 310 which is cut to have an upper narrow beam shape at the bottom of the pile body 100 Is provided, and a second discharge hole 330 made of four arranged at a certain interval or angle is provided at a place spaced apart from the top of the cutout 310 at a certain height, so that the inside of the pile body 100 It is provided so that the injected grouting liquid is discharged to the outside.

A head reinforcing ring 340 is provided at the outer periphery between the upper portion of the cutout 310 and the discharge hole 330, and the outer periphery and the bottom of the head reinforcing ring 340 and the outer drilling blade 320 A head reinforcing blade 350 is provided between the outer surfaces of) to prevent deformation while providing sufficient excavation force during the excavation process.

The head reinforcement blade 350 reinforces the outside of the outer excavation blade 320, while the outer excavation blade 320 is rotated to allow easier excavation during excavation. It is desirable to be provided with a certain angle at the center of the axis of ).

The inner excavation blade 360 is integrally provided with a W-shaped excavation piece 362 under the inner excavation blade body 361 having a square plate shape to facilitate excavation of the central part of the excavation head 300 It is provided so that it can be made. At this time, the excavation piece 372 is arranged in a direction perpendicular to the outer excavation blade 320 protruding downward from the bottom of the pile body 100 so that optimum excavation can be achieved while reducing the excavation resistance to the maximum. It is equipped.

In this helical pile, first, the joint member 111 provided on the upper part of the pile body 100 is inserted into the hydraulic rotating device provided in the boom of the backhoe, not shown, and the join key 113 is coupled thereto. When the pile body 100 is rotated, excavation is performed by the excavation piece 362 and the outer excavation blade 320 of the inner excavation blade 360 of the excavation head 300 provided at the lower end of the pile body 100. Then, in a state inserted to a predetermined depth, the ground is more easily excavated by the helical blade 200 provided at the outer periphery of the pile body 100.

Next, after excavation of the ground is made, when the high-pressure grouting solution is injected into the inside of the pile body 100 through the injection port (PC) coupled to the female screw part 112 of the joint member 111, the injected grouting solution is It moves to and is discharged to the outside through the first discharge hole 120, and then, as it is discharged through the second discharge hole 330, it is filled between the excavated inner surface and the outer surface of the pile body 100 to protect the ground. As it is hardened after filling, the ground can be reinforced.

100: pile body 110: pile joint
111: hollow joint member 112: join pin hole
200: helical blade 210: blade member
211: start end 212: end
213: excavation guide 300: excavation head
310: cutout 320: outer excavation blade
330: discharge hole 340: head reinforcement ring
350: head reinforcement blade 360: inner drilling blade
361: inner excavation blade body 362: excavation piece

Claims (3)

A pile body 100 provided with a hollow shaft member;
A helical blade 200 coupled to the lower outer periphery of the pile body 100; And
Helical pile, characterized in that it includes an excavation head (300) provided at the lower end of the pile body (100).
The method of claim 1,
The pile body 100 is provided with a pile joint 110 having an inner diameter equal to the outer diameter of the pile body 100 at the upper end, and a first discharge hole 120 is provided at a location spaced apart from the lower end to a predetermined height, In the pile joint 110, the lower part of the hollow joint member 111 is fitted to the upper end of the pile body 100 to have a predetermined length and is coupled by a welding joint, and a female screw part 112 that is internally joined to the hollow joint member 111 Is provided, the joining key 113 is provided on the outside, and the helical blade 200 is provided so that the blade member 210 having a rectangular cross section is wound once along the outer periphery of the pile body 100, The starting end 211 and the end 212 of the blade member 210 are provided to be spaced apart at a predetermined height (H), and an excavation guide 213 having an inclined shape is provided at the starting end 211 Helical file characterized by.
The method of claim 1,
The excavation head 300 includes an outer excavation blade 320 provided to protrude downward on both sides of the cutout 310 cut to have an upper narrow light shape at the bottom of the pile body 100;
A second discharge hole 330 made of four arranged at a certain interval or angle at a place spaced apart from the upper part of the cutout 310 at a certain height;
A head reinforcing ring 340 provided to be fitted in the outer peripheral portion between the upper portion of the cutout 310 and the discharge hole 330;
A head reinforcing blade 350 provided between the outer periphery and the bottom of the head reinforcing ring 340 and an outer surface of the outer excavation blade 320; And
It is provided with an inner drilling blade 360 that is inserted into the inner side of the outer drilling blade 320 and fixed, wherein the inner drilling blade 360 has a W shape under the inner drilling blade body 361 having a rectangular flat plate shape. A helical, characterized in that the excavation piece 362 is integrally provided, and the excavation piece 362 is arranged in a direction perpendicular to the outer excavation blade 320 protruding downward from the bottom of the pile body 100 file.

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