KR102015282B1 - Bored pile with improved end bearing capacity - Google Patents

Abstract

The present invention relates to a buried pile with improved tip support, which is provided with a tip shoe that enlarges the cross-sectional area at the tip of the pile, and forms an extension plate of the tip shoe inclined upward in the upper direction of the pile and has a stepped shape on the lower surface of the extension plate. It is to provide a buried pile with improved end support force to further increase the end area by increasing the ground area by forming a stepped portion to enlarge the cross-sectional area.
The present invention for achieving the above object, in the embedded pile comprising a tip shoe which is attached to the tip of the pile body and the pile body to improve the end support force, wherein the tip shoe is attached to the tip of the pile body Tip attachment plate; A tip extension plate which is formed to extend larger than the diameter of the pile body at the edge of the tip mounting plate, and is bent upwardly inclined in the head direction of the pile body; It is a technical subject matter that includes a; protruding portion to increase the ground area on the lower surface of the tip extension plate to improve the tip support force.

Description

Bored pile with improved end bearing capacity

The present invention relates to a buried pile with improved tip support, which is provided with a tip shoe that enlarges the cross-sectional area at the tip of the pile, and forms an extension plate of the tip shoe inclined upward in the upper direction of the pile and has a stepped shape on the lower surface of the extension plate. The present invention relates to a buried pile having improved end support force, which is capable of further improving the end support force by increasing the ground area by expanding the cross-sectional area by forming a protrusion.

In general, the pile is injected with cement milk into the drilled hole drilled using a drilling pile method and a drill auger such as a screw auger that injects the pile into the ground using a hammer and inserts the pile into the drilled hole. Afterwards, the hammer may be applied to the head of the PHC pile by a buried pile method of hardening cement milk.

In addition, in general, the bearing capacity of the pile by the pile foundation refers to the size of the pile upper load that can be supported by the pile can be classified into tip support and principal friction. The tip bearing force refers to the bearing force expressed by the overall cross-sectional area of the tip of the pile, and the main surface friction means the frictional force generated by the contact between the main surface of the pile and the ground.

On the other hand, the driving pile method has the advantage that the surrounding ground is firmly compacted due to the vibration of the pile, which increases the bearing capacity.However, due to the strong impact, the noise and vibration generated during construction are large, so that the urban area and the barn are adjacent to the rural area. It has disadvantages such as limited use.

Therefore, in order to suppress noise and vibration generated when applying the driving pile method, the embedded pile method is used. The embedded pile method is capable of constructing PHC pile in a low noise and low vibration state, whereas screw Auger, etc. While drilling holes are excavated with excavation equipment, very small slime remains on the bottom of the drill hole, and the ground under the drill hole is weaker than the ground due to the stress relaxation. In order to secure economic feasibility in terms of construction cost, it is important to construct the pile so that the tip bearing capacity of the pile is improved.

Patent Registration 10-0869815

An object of the present invention for solving the above problems is to install a tip shoe that extends the cross-sectional area at the tip of the pile, the expansion plate of the tip shoe is formed to be inclined upward in the upper direction of the pile and stepped on the lower surface of the expansion plate It is to provide a buried pile with improved end support force to further increase the end area by increasing the ground area by expanding the cross-sectional area by forming a protruding portion of.

The present invention to achieve the object as described above and to perform a problem for eliminating the conventional defects, in the embedded pile including a pile body and a tip shoe attached to the tip of the pile body to improve the tip bearing capacity The tip shoe may include a front end attachment plate coupled to the front end of the pile body; A tip extension plate which is formed to extend larger than the diameter of the pile body at the edge of the tip mounting plate, and is bent upwardly inclined in the head direction of the pile body; And a protrusion configured to protrude from the lower surface of the tip extension plate so as to increase the ground area so that the tip support force can be improved.

In addition, the protrusion is characterized in that it consists of a stepped protrusion formed by successive repeated vertical and horizontal planes on the lower surface of the tip extension plate.

In addition, the protrusion is characterized by consisting of a plurality of individual protrusions protruding at a predetermined interval on the lower surface of the tip extension plate.

In addition, it is installed so as to be fitted to the upper surface and the outer circumferential surface of the pile body of the tip expansion plate to reinforce the rigidity of the tip expansion plate to prevent damage to the tip expansion plate; characterized in that the configuration further comprises a.

In addition, the pile body is composed of a PHC pile and the front end shoe is characterized in that a plurality of bolt holes are further formed in the front end mounting plate to be bolted to the front end of the PHC pile.

In addition, by forming a through-hole in the center of the front end mounting plate is characterized in that the earth and sand during the construction of the pile through the through-hole to reduce the buoyancy generated in the pile body.

As described above, according to the present invention, the tip extension plate of the tip shoe is formed to be inclined upward, so that the bearing capacity for the load acting laterally inside the excavation hole is improved.

In addition, the ground area is increased by the protrusions formed on the lower surface of the tip extension plate, so that the bonding force with the concrete is improved, and when the axial force is generated in the buried pile due to the load, the compressive breakage and wedge breakage occur continuously. It is a very useful invention that has the effect of improving the quality.

1 is a perspective view showing a buried pile according to the present invention,
Figure 2 is a bottom perspective view showing a buried pile according to the present invention,
3 is a cross-sectional view showing a buried pile with a tip shoe according to a first embodiment of the present invention;
Figure 4 is a cross-sectional view showing the embedded pile with a tip shoe according to a second embodiment of the present invention.
5 is a cross-sectional view showing a state in which a reinforcement is further installed to fit between the tip shoe and the pile body of the present invention;
Figure 6 is a cross-sectional view showing the coupling structure of the tip shoe when the pile body according to the present invention composed of a PHC pile
Figure 7 is an exemplary view showing a process of improving the tip bearing capacity by generating crushing and wedge failure continuously by the tip shoe when the axial force occurs in the pile body of the present invention.

Hereinafter, the configuration and the operation of the embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

1 is a perspective view showing a buried pile according to the present invention, Figure 2 is a bottom perspective view showing a buried pile according to the present invention, Figure 3 is a sectional view showing a buried pile with a tip shoe according to a first embodiment of the present invention, 4 is a cross-sectional view showing a buried pile with a tip shoe according to a second embodiment of the present invention,

The present invention is configured to include a pile body 100, and a tip shoe 200 is installed at the tip of the pile body 100 to improve the tip bearing force.

The pile body 100 may be composed of various types of piles, such as steel pipe pile or PHC pile.

The tip shoe 200 is formed to extend larger than the diameter of the pile body 100 at the edge of the tip mounting plate 210 and the tip mounting plate 210 attached to the tip of the pile body 100, The tip extension plate 220 is formed to be bent upwardly inclined in the head direction of the main body 100 and formed on the lower surface of the tip extension plate 220 to increase the ground area and to increase the friction force to improve the tip support force It is configured to include a protrusion 230.

The tip shoe 200 configured as described above may be coupled to the tip mounting plate 210 to be welded to the tip of the pile body 100 when the pile body 100 is a steel pipe as shown in the drawing.

The tip extension plate 220 is to extend the front end of the pile body 100 to improve the end support force, and at the same time formed to be inclined upward in the head direction of the pile body 100, the pile is embedded in the excavation hole 300 This improves the bearing capacity for the load acting in the lateral direction.

That is, the pile can flow as much as the gap between the inner wall of the excavation hole 300 and the pile body 100 to be excavated for the construction of the pile body 100, the present invention is formed by the tip expansion plate 220 is inclined upward The bearing capacity for the applied load is improved.

In particular, by further forming a protrusion on the lower surface of the tip expansion plate 220, when the axial load is applied to the pile body, compression failure occurs in the vertical direction by the protrusion, and wedge failure in the lateral direction when the compression failure is completely reached. Is generated, and because of this, the end bearing capacity of the pile is improved.

In addition, the binding force with the concrete 400 injected into the excavation hole 300 is improved, thereby improving the bearing capacity for the load acting in the vertical direction of the pile, thereby improving the tip bearing capacity of the pile.

As shown in FIG. 3, the protrusion 230 may include a stepped protrusion 231 in which the vertical surface 231a and the horizontal surface 231b are successively repeated on the lower surface of the tip extension plate 220.

When the plurality of stepped protrusions 231 are formed below the tip extension plate 220, the vertical surface 231a of the stepped protrusion 231 causes the bearing force to be generated against the horizontal load, and the horizontal surface 232b is placed on the vertical load. The support of the pile is improved, so that the stable pile construction is possible.

In addition, when the axial load is generated in the pile body 100, the compressive fracture is generated in the vertical direction by the horizontal plane 232b, and when the compressive fracture is completed, it is inclined toward the outside from the outside of the pile body by the inclined form of the tip extension plate As the wedge break occurs in the form of downward slope, it will improve the tip bearing capacity.

In addition, by forming a stepped protrusion 231 to extend the cross-sectional area of the lower end of the extension plate 220 by increasing the ground area with the concrete 400 is injected into the excavation hole 300 is to improve the tip support.

On the other hand, the protrusion 230 may be composed of a plurality of individual protrusions 232 protruding at predetermined intervals on the lower surface of the tip extension plate 220, as shown in Figure 4, so as to form a separate protrusion 232 Thus, the cross-sectional area of the lower end of the tip expansion plate 220 is expanded and compression and wedge destruction are continuously generated by the individual protrusions 232 that generate axial load on the pile body 100, thereby improving tip bearing capacity. The ground area with the concrete 400 injected into the interior of the 300 is increased, so that the tip support force is improved.

Meanwhile, FIG. 5 is a cross-sectional view illustrating a state in which a reinforcing material is further installed to be inserted between the tip shoe and the pile body of the present invention, and the present invention is interposed on the upper surface of the tip extension plate 220 and the outer circumferential surface of the pile body 100. It is configured to include a reinforcement 240 to reinforce the rigidity of the tip extension plate 220 by being installed to fit.

In this way, by installing the reinforcing member 400 to reinforce the rigidity of the tip expansion plate 220, in particular, the tip expansion plate 220 is prevented from bending or breaking as much as possible during the wedge destruction of the tip expansion plate 220, thereby preventing the lowering of the tip bearing force. You will.

The reinforcing member 240 may be fixed to the tip extension plate 220 by welding or bolting.

On the other hand, the tip shoe 200 of the present invention, as shown in Figure 6, when the pile body 100 is composed of a PHC pile to the end attachment plate 210 to correspond to the steel wire fixing nut 110 formed in the PHC pile A plurality of bolt holes 212 may be formed to be coupled to the bolt 250 by being fastened to the steel wire fixing nut 110 through the bolt holes 212.

In addition, the tip shoe 200 of the present invention can be configured to reduce the buoyancy generated in the pile body by forming a through hole 211 in the tip mounting plate 210.

That is, by forming the through hole 211 in the center of the front end mounting plate 210, the soil is introduced into the pile body 100 through the through hole 211 to reduce the buoyancy generated in the pile body 100 This will prevent the tip bearing capacity of the pile from being lowered.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by any person having ordinary skill in the art without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

(100): pile body (110): steel wire fixing nut
(200): Tip shoe (210): Tip attachment plate
211: through hole 212: bolt hole
(220): tip extension plate 230: protrusion
231: stepped protrusion 231a: vertical plane
(231b): horizontal plane (232): individual protrusion
240: reinforcement 250: bolt
300: digging hole 400: concrete

Claims (6)

In the embedded pile consisting of a pile body and a tip shoe attached to the tip of the pile body to improve the end support force,
The tip shoe,
A tip attachment plate coupled to the tip of the pile body;
A tip extension plate which is formed to extend larger than the diameter of the pile body at the edge of the tip mounting plate, and is bent upwardly inclined in the head direction of the pile body;
And a protrusion protruding from the lower surface of the tip extension plate to increase the ground area so that the tip support force can be improved.
The protrusion is composed of a stepped protrusion formed by successive repeated vertical and horizontal planes on the lower surface of the tip extension plate,
The pile is installed so as to be fitted to the upper surface of the tip expansion plate and the outer peripheral surface of the pile body reinforces the rigidity of the tip expansion plate further comprising a reinforcement for preventing the tip expansion plate from being broken. delete delete delete The method of claim 1
The pile body is composed of PHC pile
The tip shoe is a buried pile with improved end support, characterized in that a plurality of bolt holes are further formed in the tip mounting plate to be bolted to the tip of the PHC pile. The method of claim 1
Forming a through-hole in the center of the front end mounting plate so that the soil piles through the through-hole during the construction of the pile by reducing the buoyancy generated in the pile main body, characterized in that the buried pile is improved.

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