KR101049577B1 - Pile - Google Patents

Abstract

PURPOSE: A pile is provided to enable grouting solution to be filled in the hollow of a pile. CONSTITUTION: A grouting-solution hole(11) is formed on a hollow pile(10). The grouting-solution hole passes through the inner and outer circumferential surfaces of the lower end of the pile. A front-end reinforcing plate(20) includes a settling portion and an extended portion. The lower end of the pile is settled on the setting portion. The extended part is extended upwardly from the edge of the settling portion. A reinforcing plate for excavation is protruded downwardly from the bottom of the settling portion.

Description

Purchase pile {Pile}

The present invention relates to a buried pile, and more particularly to a buried pile to improve the bearing capacity during construction by the buried pile method, and to facilitate grouting.

In the construction site, the pile pile method for excavating the ground and inserting the pile into the excavation hole is widely used. This embedded pile method uses an auger to drill the excavation hole in the ground, to excavate the soil inside the excavation hole, and when the required depth is reached, the auger is removed and the pile is inserted while injecting grouting liquid (cement paste). It is a method of installing piles by pressing or striking after hitting.

Figure 1 schematically shows a conventional buried pile used in such a buried pile method, Figure 2 shows a cross section when the conventional buried pile is inserted into the excavation hole and grouted by injecting grouting liquid.

As shown in Figure 1, the conventional embedded pile 1 is formed in a hollow, the lower end is closed. As shown in FIG. 2, the grouting liquid 2 is injected and grouted between the outer circumferential surface of the conventional embedded pile 1 and the inner circumferential surface of the excavation hole 3.

However, the buried pile method using the conventional buried pile (1), because the grouting liquid (2) is injected and grouted between the buried pile (1) outer circumferential surface and the excavation hole (3) inner circumferential surface and the bearing force of the buried pile (1) is weak When the ground layer adjacent to the lower end of the embedded pile 1 is a sand gravel layer, a stone layer, and the like, the grouting liquid 2 is lost, thereby reducing the bearing capacity of the embedded pile 1. In addition, in the process of drawing the auger in order to insert the embedded pile 1 into the excavation hole 3 drilled by the auger, soil is swept into the excavation hole 3 in the inner circumferential surface of the excavation hole 3 and the grouting liquid 2 Excessive mixing of soil particles, etc.) may cause a problem of degrading the quality of grouting and eventually reducing the bearing capacity of the embedded pile 1.

The present invention has been made in order to solve the above problems, to improve the bearing capacity in the excavation hole of the buried pile, and to provide a buried pile with improved structure to improve the quality of grouting while performing grouting easily It is done.

Buried pile according to the present invention for achieving the above object, the grouting liquid hole is formed through the inner and outer circumferential surface of the lower end to pass the grouting liquid, the bottom of the hollow pile; And a front end reinforcing plate having a seating part in which the lower end of the pile is seated, and an extension part extending upward from an edge of the seating part 21.

Here, the extension portion is spaced apart from the outer peripheral surface of the lower end portion, it is preferable that a plurality of first through holes are formed along the circumferential direction.

Here, the second through hole is preferably formed in the seating portion.

Here, the excavation reinforcing plate protruding downward from the bottom of the seating portion is preferably combined.

Here, the excavation reinforcing plate is preferably inclined sharply toward the lower side.

Here, the excavation reinforcing plate preferably includes a first reinforcing plate crossing the center of the seating portion, and a second reinforcing plate intersecting the first reinforcing plate at the center of the seating portion.

Here, the extension portion is formed to be inclined away from the center of the mounting portion toward the upper side, it is preferable that a plurality of positioning pieces are coupled to the inner peripheral surface of the extension portion so that the lower end portion is fixed.

According to the buried pile according to the present invention, the grouting liquid hole penetrating the inner and outer circumferential surface at the lower end of the pile is injected into the grouting liquid through the end of the pile. Due to this, the grouting liquid is also filled in the hollow part of the pile, thereby improving the bearing capacity of the embedded pile.

The grouting liquid moved to the inner circumferential surface side of the excavation hole through the grouting liquid hole is moved from the lower end of the excavation hole to the upper end side so that grouting is performed to prevent the soil from being excessively mixed in the excavation hole to perform high quality grouting. do.

The embedding pile according to the present invention is provided with a tip reinforcing plate at the lower end thereof to improve penetration of the pile. An extension of the tip reinforcing plate is provided with a through hole through which the grouting liquid passes along the circumferential direction, thereby providing an effect of diffusing the grouting liquid toward the inner circumferential surface side of the excavation hole.

In addition, the line sugar reinforcing plate prevents the soil particles of the excavation hole to move to the upper portion of the excavation hole to prevent the mixing of soil particles, etc., thereby enabling high quality grouting.

1 is a schematic perspective view of a conventional embedding pile,
2 is a cross-sectional view in the case of grouting using a conventional embedded pile,
3 is a schematic perspective view of a buried pile according to an embodiment of the present invention;
FIG. 4 is a cross-sectional view taken along line IV-IV of FIG. 3 when grouting using a buried pile according to an embodiment of the present invention; FIG.
5 is a view showing a process of grouting using the embedded pile according to an embodiment of the present invention,
Figure 6 is a perspective view of the tip reinforcing plate adopted in the buried pile according to another embodiment of the present invention,
7 is a bottom view of the tip reinforcing plate employed in the buried pile according to another embodiment of the present invention,
8 is a view showing an extract of the main part of FIG.
9 is a view showing an excavation reinforcement plate employed in the buried pile according to another embodiment of the present invention.

The present invention relates to a buried pile used in the buried pile method. In the present specification, the embedded pile includes a PHC file (Pretensioned spun High strength Concrete Pile), a PC file (Pretensioned Concrete Pile), or a steel pipe, and is used as a concept encompassing a file that can be used as the embedded pile.

Hereinafter, with reference to the accompanying drawings will be described in detail the embedded pile according to the embodiments of the present invention.

Referring to Figure 3 buried pile 100 according to the present invention is a buried pile used in the buried pile method, the grouting liquid hole 11 is formed through the inner and outer peripheral surface of the lower end so that the grouting liquid passes through the bottom surface is closed Tip reinforcement plate having a hollow pile (10), a seating portion (21) on which the lower end of the pile (10) is seated, and an extension portion (22) extending upward from an edge of the seating portion (21) 20).

The pile 10 is formed in a hollow shape, the upper end is opened, and the lower end is closed. The grouting liquid hole 11 formed through the inner and outer peripheral surfaces is formed at the lower end of the pile 10.

The grouting liquid hole 11 is provided to discharge the grouting liquid 2 from the lower end thereof to the excavation hole 3 side when the grouting liquid 2 is injected and grouted through the longitudinal hole 12 of the pile 10. do.

The tip reinforcing plate 20 is made of steel, increase the rigidity of the lower end of the pile 10 to improve the penetration when the pile 10 is inserted into the excavation hole (3), and grouting when grouting In order to facilitate and perform good grouting, and to improve the bearing capacity of the grouted pile (10).

As shown in FIG. 3, the tip reinforcing plate 20 employed in the embodiment of the present invention has a seating portion 21 on which the lower end of the pile 10 is seated, and extends upward from the seating portion 21. And an extension 22.

In the present embodiment, the extension part 22 is formed with a plurality of first through holes 221 along the circumferential direction thereof. The first through hole 221 evenly grouts toward the inner circumferential surface of the excavation hole 3 when the grouting liquid 2 injected through the hollow 12 of the pile 10 flows out from the lower end of the pile 10. (2) is dispersed, and the injection pressure of the grouting liquid 2 is increased to improve the diffusion speed of the grouting liquid 2. On the other hand, unlike the tip reinforcing plate 20 according to the embodiment of Figure 3, the tip reinforcing plate (20 ', 20 ") according to Figure 6 and 7 has a second through hole 211 in the seating portion 21 The grouting liquid 2 diffused to the bottom of the pile 10 is also filled between the bottom of the pile 10 and the bottom of the excavation hole 3 exposed by the second through hole 211. The bearing capacity of the pile 10 is improved.

As shown in Figures 3 and 4, the extension portion 22 is spaced apart from the outer peripheral surface of the lower end of the pile (10). Accordingly, the grouting liquid 2 is also filled between the inner circumferential surface of the extension 22 and the outer circumferential surface of the lower end of the pile 10 to increase the rigidity of the pile 10.

In addition, the extension portion 22 is formed to be inclined away from the center of the seating portion 21 toward the upper side. As the extension part 22 is formed to be inclined closer to the inner circumferential surface of the excavation hole 3 toward the upper side, soil particles, etc., located at the bottom of the excavation hole 3 during grouting are excavated by the grouting liquid 2. It is prevented from being moved to the upper side of the), and prevents the mixing of unnecessary soil particles, etc. when grouting to enable a good grouting.

Meanwhile, the embedded pile 100 according to the present invention may further include an excavation reinforcement plate 40 and a positioning piece 30.

The excavation reinforcing plate 40 is provided to improve the penetration of the pile 10, the protrusion 10 is formed to protrude downward from the bottom of the seating portion (21).

7 and 8, the excavation reinforcement plate 40 is formed to be inclined sharply toward the lower side is configured to improve the penetration of the pile 40, specifically the first reinforcement plate 41 and And a second reinforcing plate 42.

The first reinforcing plate 41 is coupled to cross the center of the seating portion 21, and has a pointed triangular shape toward the lower side. In addition, like the first reinforcing plate 41, the second reinforcing plate 42 is coupled to cross the center of the seating portion 21, and has a pointed triangular shape toward the lower side. The first reinforcing plate 41 and the second reinforcing plate 42 intersect at the center of the mounting portion 21. FIG. 7 illustrates the bottom of the excavation reinforcing plate 40 in a state in which the second through hole 211 is formed at the center of the mounting portion 21. Of course, it is also possible to combine the excavation reinforcement plate 40 in a state in which the second through hole 211 is not formed in the seating portion 21.

Figure 9 shows another embodiment of the excavation reinforcement plate. According to the present embodiment, the excavation reinforcement plate 40 'protrudes downward from the bottom surface of the seating portion 21, and combines two reinforcing plates forming a rectangle to cross each other at the center of the seating portion 21. will be.

The positioning piece 30 is provided to easily seat the lower end of the pile 10 on the seating portion 21 of the tip reinforcing plate 20. The positioning pieces 30 are spaced apart along the inner circumferential surface of the extension part 22 of the tip reinforcing plate 20 so that the lower end of the pile 10 is positioned correctly. In the present embodiment, four positioning pieces 30 are spaced apart at regular intervals along the circumferential direction of the extension part 22. Of course, the number and separation distance can be variously changed.

The pile 10 positioned between the positioning pieces 30 is inserted into the excavation hole 3 so as to be spaced apart from the inner circumferential surface of the excavation hole 3 by a predetermined distance, after which the grouting liquid ( 2) Filled quantitatively on the outer circumferential surface of the pile 10 and the inner circumferential surface of the excavation hole 3 to enable high quality grouting.

Hereinafter, the operation of the embedded pile 100 according to the present invention according to the above configuration, will be described in detail with the process of performing grouting using the embedded pile 100.

Referring to FIG. 5, a drill hole 3 is drilled in the ground using an auger 5. As shown in FIG. 5A, the casing 4 is inserted into the inner circumferential surface of the excavation hole 3 while drilling the excavation hole 3 by the auger 5. Subsequently, as shown in FIGS. 5B and 5C, the auger 5 is removed from the excavation hole 3, the embedding pile 100 according to the present invention is inserted, and the embedding pile 100 is provided. Hit the upper end of the embedded pile 100 by using a slugging machine 6 so that the lower end of the drilling hole (3) is in close contact with the bottom.

At this time, penetration of the pile 10 is increased by the tip reinforcing plate 20 coupled to the lower end of the pile 10, and the inside of the excavation hole 3 is extended by the extension part 22 of the tip reinforcing plate 20. Soil of the particles is prevented from being excessively mixed to the upper side of the extension (22).

Then, the grouting liquid 2 is injected through the hollow 12 of the pile 10. The grouting liquid 2 flows out of the pile 10 through the grouting liquid hole 11 formed at the lower end while being filled in the hollow 12 of the pile 10. Through this process, the grouting liquid 2 is filled while rising from the bottom of the excavation hole 3 to the top.

At this time, the grouting liquid 2 is evenly distributed to the inner circumferential surface side of the excavation hole 3 through the first through hole 221 of the extension portion 22. Therefore, the grouting liquid 2 is also filled below the inclined surface of the extension part 22.

Then, as shown in Fig. 5D, the grout 4 inserted into the excavation hole 3 is pulled out together while the grouting liquid 2 is injected. When the casing 4 is drawn out, the grouting liquid 2 is filled while gradually rising from the bottom of the excavation hole 3. Since the specific gravity of the grouting liquid 2 is greater than the specific gravity of water penetrated into the excavation hole 3, the grouting liquid 2 filled from the lower portion of the excavation hole 3 is minimized incorporation of unnecessary soil particles.

When the drawing of the casing 4 is completed and sufficient grouting liquid 2 is injected and grouting is completed, the grouting construction is finished by arranging the upper end of the embedded pile 100.

As such, the embedded pile 100 according to the present invention forms a grouting liquid hole 11 through which the grouting liquid 2 is discharged at the lower end of the pile 10 and the grouting liquid through the hollow 12 of the pile 10. 2) inject. The grouting liquid 2 is filled between the hollow 12 of the pile 10, the outer peripheral surface of the pile 10 and the inner peripheral surface of the excavation hole 3. Therefore, the strength of the pile 10 is remarkably improved as compared with the grouting liquid 2 filled between the embedding pile and the inner circumferential surface of the excavation hole.

Since the strength of the pile 10 is increased, it reduces the number of files to be inserted per same construction area and shortens the construction period, thereby providing a cost saving effect. In addition, it provides a viable effect to replace the high load cast-in-place pile method of the columnar composite type.

In addition, compared to the grouting by injecting the grouting solution between the outer peripheral surface of the buried pile and the inner peripheral surface of the excavation hole, the embedding pile 100 according to the present invention is injected because the grouting solution (2) through the hollow 12 To facilitate.

In addition, the tip reinforcing plate 20 improves the penetration of the pile 10, the grouting liquid 2 is the main surface portion (the outer peripheral surface of the pile 10 through the first through hole 221 of the extension portion 22) And the grouting liquid 2 is evenly filled in the main surface portion, and the grouting liquid 2 is extended by the extension part 22 of the tip reinforcing plate 20 and the pile 10. It is also filled between the outer circumferential surface of the buried pile 100 to improve the bearing capacity.

In addition, the tip reinforcing plate 20 to prevent the soil particles and the like in the lower portion of the excavation hole (3) unnecessarily mixed in the grouting liquid (2) to enable a good quality grouting, sand in the lower portion of the excavation hole (3) Minimizing the loss of the grouting solution (2) to the gravel layer or the electrodeposition layer. Although the grouting liquid 2 is lost to the sand gravel layer or the electrodeposition layer, the grouting liquid 2 is insufficient by supplementing the grouting liquid 2 to the hollow 12 of the pile 10 (the grouting liquid silo function). It provides an effect that can be easily filled.

As mentioned above, preferred embodiments of the present invention have been described in detail, but the present invention is not limited to the above embodiments, and many other various modifications may be provided without departing from the scope of the present invention. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

2 ... grouting liquid 3 ... digger
4 ... caching 5 ... auger
10 ... file 11 ... grouting hole
12 ... Hollow 20,20 ', 20 "... Tip Reinforcement Plate
21 ... Seating section 211 ... Second through hole
22 ... Extension 221 ... First through hole
30 ... Positioning piece 40,40 '... Excavation reinforcement plate

Claims (10)

delete delete delete delete delete delete delete In the buy pile used in the buy pile method,
A grouting liquid hole 11 is formed through the inner and outer circumferential surfaces of the lower end portion to allow the grouting liquid to pass therethrough, and a hollow pile 10 having a bottom surface closed;
A tip reinforcing plate having a seating portion 21 on which the lower end of the pile 10 is seated, and an extension portion 22 extending upward from an edge of the seating portion 21; And
Including the excavation reinforcement plate 40 protruding downward from the bottom of the seating portion 21,
The extension part 22 is embedded pile, characterized in that formed to be inclined away from the center of the seating portion 21 toward the upper side. In the buy pile used in the buy pile method,
A grouting liquid hole 11 is formed through the inner and outer circumferential surfaces of the lower end portion to allow the grouting liquid to pass therethrough, and a hollow pile 10 having a bottom surface closed;
A tip reinforcing plate having a seating portion 21 on which the lower end of the pile 10 is seated, and an extension portion 22 extending upward from an edge of the seating portion 21; And
Including the excavation reinforcement plate 40 protruding downward from the bottom of the seating portion 21,
The extension part 22 is spaced apart from the outer circumferential surface of the lower end portion, a plurality of first through holes 221 are formed along the circumferential direction, and formed to be inclined away from the center of the seating portion 21 toward the upper side The purchase stake characterized by the above. In the buy pile used in the buy pile method,
A grouting liquid hole 11 is formed through the inner and outer circumferential surfaces of the lower end portion to allow the grouting liquid to pass therethrough, and a hollow pile 10 having a bottom surface closed;
A tip reinforcing plate having a seating portion 21 on which the lower end of the pile 10 is seated, and an extension portion 22 extending upward from an edge of the seating portion 21; And
Including the excavation reinforcement plate 40 protruding downward from the bottom of the seating portion 21,
A second through hole 211 is formed in the seating portion 21,
The extension part 22 is embedded pile, characterized in that formed to be inclined away from the center of the seating portion 21 toward the upper side.

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