KR20170129327A - Phc pile - Google Patents

Abstract

According to the present invention, a PHC pile comprises: a main body (10) formed by a concrete material; a plurality of PC steel wires (20) buried in the main body (10) in a radial structure in a longitudinal direction; a coupling plate (30) which has a plurality of steel wire penetration holes (31) to allow lower ends of the plurality of PC steel wires (20) to penetrate the same, and is coupled to a lower end of the main body (10); and a reinforcement apparatus (100) formed in a structure protruding gradually downwards from an edge towards a center to be coupled to a lower end of the coupling plate (30) to come in contact with a ground surface of a drilled hole to be fixed by anchoring the lower ends of the plurality of PC steel wires (20). The reinforcement apparatus (100) comprises: a protruding member (110) which is formed in a structure where an outer surface thereof protrudes gradually downwards, and has a dented unit formed therein; and a support member (120) formed in an erected plate structure, wherein an upper end thereof is coupled to the lower end of the coupling plate (30), and a lower end thereof is coupled to an inner surface of the protruding member (110). A plurality of the support members (120) are separated from each other and installed in a radial structure in a circumferential direction. Manufacture and construction are facilitated. Stress concentration does not occur. An end bearing capacity of a pile can be effectively increased.

Description

PHC file {PHC PILE}

Field of the Invention The present invention relates to civil engineering field, and more particularly to a PHC file.

A pile is a basic structure that is constructed to transmit the load of a superstructure to the ground, and is generally designed as a compression member under the assumption that only compressive force acts.

The construction method of the file to form the foundation of the structure on the ground can be roughly divided into a method of installing the file of the factory by hovering and a method of installing the concrete in the perforation hole and putting the concrete into the site.

In order to increase the end bearing capacity of the file, the end supporting force of the file is proportional to the area of the file end (lower end). Research and construction of the end extended file combining the end extension plate having a width larger than the width of the file at the end of the file It is actively proceeding.

In order to construct such an end-expansive file, it is necessary to enlarge the diameter of the perforation hole, thereby increasing the construction cost and duration, and the risk of damage due to contact with the inner surface of the perforation hole during construction, do.

In order to solve this problem, studies are being made on a structure and a method for forming a structure in which the lower end of the file is gradually protruded downward from the edge toward the center.

When such a configuration is taken, the surface area of the projection at the lower end of the file is naturally larger than the surface area of the plane (lower structure of the conventional pile).

According to the Mayhoff formula generally used for calculation of the tip end support force, since the tip end support force is proportional to the tip end surface area, the tip end surface area is increased and the tip end support force is increased as the tip end surface area is increased.

Therefore, it is possible to increase the end support force and reduce the construction cost and the period because the diameter of the perforation hole does not need to be enlarged as compared with the conventional method of increasing the end support force using the end extension plate as in the prior art. There is no risk of damage due to contact and it is easy to construct.

Figures 1 to 3 relate to Japanese Patent No. 2857803 (pile with continuous end bearing capacity and continuous underground wall).

This is because the excavation bit 8 having the structure gradually protruding downward from the edge toward the center forms a digging work 3 having a semicircular cross-sectional structure on the bottom surface of the perforation hole, and the concrete 9 is placed in the perforation hole And a method of constructing a cast-in-place pile having increased end support force is disclosed.

However, since the possibility that the bottom surface of the perforation hole does not substantially maintain the semicircular cross-sectional shape after drilling by the excavation bit is difficult, it is difficult to obtain a desired pile structure, thereby making it difficult to design a reliable foundation structure .

4 to 6 relate to Korean Patent Laid-Open No. 10-2011-0041391 (a method of forming a supporting force reinforcing pile structure for foundation construction and a pile structure used therein).

This reinforcing member 50 has a supporting surface 53 on the side and an upper surface 51 on the upper side, and the reinforcing member 50 is connected to the lower end of the reinforcing member 40, A study 55 is formed.

However, in the above conventional technique, the load transmitted to the reinforced composite member 50 by the pile is not directly transmitted to the support surface 53 contacting the bottom surface of the perforated hole, but is concentrated on the lower ground There is a problem that the structural stability is not good due to stress concentration and that it is difficult to construct by the field coupling of the reinforced composite body of piles and heavy weight,

The reference numerals shown in the above prior art are to be limited to the description of the related art.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a PHC file which is easy to manufacture and construct, and which can effectively increase the leading end supporting force of a file without causing stress concentration .

In order to solve the above-mentioned problems, the present invention provides a method of manufacturing a semiconductor device, comprising: a main body 10 formed of a concrete material; A plurality of PC wires (20) embedded in the body (10) in a radial configuration along the longitudinal direction; A plurality of steel wire through holes 31 are formed through the lower ends of the plurality of PC steel wires 20 so as to pass therethrough, and a coupling plate 30 coupled to a lower end of the main body 10; And the lower end of the plurality of PC steel wires 20 is fixed by the fixing of the lower ends of the plurality of PC steel wires 20 so as to come into contact with the ground surface of the perforation hole and protrude downward from the edge toward the center, (100), wherein the reinforcing device (100) comprises: a protruding member (110) formed in a structure in which an outer surface gradually protrudes downward and having a depression inside; And a support member 120 formed in an upright plate-like structure and having an upper end coupled to a lower end of the coupling plate 30 and a lower end coupled to an inner surface of the protruding member 110, And the members 120 are provided in a radial configuration at mutually spaced intervals along the circumferential direction.

A through hole 111 may be formed at the center of the protruding member 110 and a plurality of the support members 120 may be spaced apart from each other in the radial direction.

It is preferable that a vertically oriented steel wire coupling hole 121 is formed at the core of the support member 120.

It is preferable that a portion of the support member 120 where the steel wire coupling hole 121 is formed protrudes sideways relative to other portions.

The protruding member 110 is preferably formed with a steel wire fixing hole 112 so as to communicate with the steel wire coupling hole 121.

The cross-section of the protruding member 110 is preferably a straight, bent or curved structure.

It is preferable that the upper end of the protruding member 110 is formed to protrude to the outside of the pile 10.

Preferably, a vent hole 32 is formed in the deep portion of the coupling plate 30.

It is preferable that the inner side of the support member 120 is formed to have a downward inclined structure and the upper end of the inner side portion is positioned at the edge of the discharge hole 32 at the lower end of the coupling plate 30.

The present invention proposes a PHC file which is easy to manufacture and construct but which can effectively increase the end bearing capacity of a file without causing stress concentration.

1 to 3 are views of Japanese Patent No. 2857803.
Figures 4 to 6 are views of Korean Patent Application No. 10-2011-0041391.
FIG. 7 shows an embodiment of the present invention,
7 is a cross-sectional view of an embodiment of a PHC file;
Figure 8 is a bottom view of an embodiment of a PHC file.
9 is a perspective view of the first embodiment of the projecting member.
10 is a side view of the first embodiment of the projecting member.
11 is a side view of a second embodiment of the projecting member.
12 is a side view of the third embodiment of the projecting member.

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

As shown in FIG. 7 and subsequent drawings, the PHC file according to the present invention basically comprises a body 10 formed of a concrete material; A plurality of PC wires (20) embedded in the body (10) in a radial configuration along the longitudinal direction; A plurality of steel wire through holes 31 are formed through the lower ends of the plurality of PC steel wires 20 so as to pass therethrough, and a coupling plate 30 coupled to a lower end of the main body 10; And the lower end of the plurality of PC steel wires 20 is fixed by the fixing of the lower ends of the plurality of PC steel wires 20 so as to come into contact with the ground surface of the perforation hole and protrude downward from the edge toward the center, Device 100 according to an embodiment of the present invention.

Here, the reinforcing device 100 includes: a protruding member 110 having an outer surface gradually protruding downward and formed with a depression therein; And a support member 120 formed in an upright plate-like structure and having an upper end coupled to a lower end of the coupling plate 30 and a lower end coupled to an inner surface of the protruding member 110, And the members 120 are installed in a radial configuration at mutually spaced intervals along the circumferential direction.

That is, a plurality of support members 110, which are formed in a structure in which the outer surface gradually protrudes downwardly as in the case of a gull, and which are provided with a radial structure at mutually spaced intervals along the circumferential direction, (120), and the support members (120) are engaged with the lower ends of the engagement plates (30).

The effect of increasing the tip end supporting force due to the structure in which the bottom surface of the file is gradually protruded downward from the edge toward the center is as described above.

In addition, since the load transferred to the reinforcing apparatus 100 by the PHC file is directly transmitted to the protruding member 110 contacting the bottom surface of the perforation hole through the plurality of supporting members 120, Which is advantageous in terms of structural stability.

The PHC file is a high-strength pile manufactured by pretension method. It is able to withstand a large axial load because the permissible compressive stress of the concrete is very large, and because it introduces a prestress into concrete, it is widely used because of excellent impact strength and tensile stress.

Since the reinforcing device 100 is installed in the radial direction on the bottom surface of the PHC file to realize the leading end supporting force increasing structure, the PHC file can be integrally installed in the manufacture of the PHC file, Point, the protruding member 110 and the support member 120, the overall weight is not increased so that it is convenient to store, transport, and construct.

A through hole 111 is formed in a central portion of the protruding member 110. When a plurality of support members 120 are installed at mutually spaced intervals in the radial direction, the grout or sludge can pass through the through- File).

In the case where the fastening wire fastening holes 112 are formed in the protruding member 110 so as to communicate with the fastening holes in the vertical direction at the core of the support member 120, The protruding member 110 and the supporting member 120 can be easily and stably coupled to the lower end of the pile 10 by the steel wire 20 during the manufacturing process.

As described above, the support member 120 is formed in an upright plate-like structure. The support member 120 has a structure in which a portion of the support member 120 where the steel wire coupling hole 121 is formed protrudes sideways relative to other portions And the other portion is thinner than the forming portion) is preferable in view of efficient operation of the material (Fig. 9).

The cross-sectional surface of the projecting member 110 has a straight, bent or curved structure so as to gradually protrude downward from the edge toward the center (Figs. 10 to 12).

When the upper end of the protruding member 110 is formed so as to protrude to the outside of the pile 10, the effect of expanding the tip of the pile can be further obtained (Fig. 7).

When the discharge hole 32 is formed in the deep portion of the coupling plate 30, the above-described grout and sludge discharge effect can be obtained.

When the inner side of the support member 120 is formed to have a downward inclined structure and the upper end of the inner side portion is disposed at the edge of the discharge hole 32 at the lower end of the coupling plate 30, (Fig. 7).

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

10: Main body 20: PC wire
30: coupling plate 32: exhaust hole
100: reinforcing device 110: projecting member
111: Through hole 112: Steel wire fixing ball
120: support member 121: steel wire coupling ball

Claims (9)

A body 10 formed of a concrete material;
A plurality of PC wires (20) embedded in the body (10) in a radial configuration along the longitudinal direction;
A plurality of steel wire through holes 31 are formed through the lower ends of the plurality of PC steel wires 20 so as to pass therethrough, and a coupling plate 30 coupled to a lower end of the main body 10;
And the lower end of the plurality of PC steel wires 20 is fixed by the fixing of the lower ends of the plurality of PC steel wires 20 so as to come into contact with the ground surface of the perforation hole and protrude downward from the edge toward the center, Device 100,
The reinforcing device (100)
A projecting member (110) formed in a structure in which an outer surface gradually protrudes downward and having a depression in the interior thereof;
And a support member 120 formed in an upright plate-like structure and having an upper end coupled to a lower end of the coupling plate 30 and a lower end coupled to an inner surface of the protruding member 110,
Wherein a plurality of said support members (120) are installed in a radial configuration at mutually spaced intervals along the circumferential direction. The method according to claim 1,
A through hole 111 is formed at the center of the protruding member 110,
Wherein the plurality of support members (120) are spaced apart from each other along the radial direction. The method according to claim 1,
And a vertical steel wire coupling hole (121) is formed in the core of the support member (120). The method of claim 3,
Wherein a portion of the support member (120) where the steel wire coupling hole (121) is formed protrudes sideways relative to the other portion. The method of claim 3,
And a steel wire fixing hole (112) is formed in the protruding member (110) so as to communicate with the steel wire coupling hole (121). The method according to claim 1,
Wherein the cross-section of the protruding member (110) is a straight, bent or curved structure. The method according to claim 1,
And the upper end of the protruding member (110) is formed to protrude to the outside of the pile (10). The method according to claim 1,
And a vent hole (32) is formed in the core of the coupling plate (30). 9. The method of claim 8,
Wherein the inner side portion of the support member (120) is formed in a downwardly inclined structure, and the upper end of the inner side portion is positioned at an edge of the discharge hole (32) at the lower end of the coupling plate (30).

Images