KR101466068B1 - Complex pile with improved end bearing capacity and piling method of complex pile using the same - Google Patents

Abstract

The present invention relates to a composite pile reinforced with a tip end supporting force and a composite pile purchase method using the composite pile. More particularly, the present invention relates to a steel plate comprising a shoe plate having a protrusion protruding downward at a lower outer circumference of a lower end thereof, a reinforcing band provided at a lower end of the plate, and a PC steel wire tied at one end to the shoe plate, PHC piles; And the bottom of the PHC pile in such a manner that it is inserted into contact with the outer surface of the protrusion of the shower plate. The slime remaining in the perforated hole through the striking hole passes through the supporting layer where the strength of the lower portion of the perforation hole is weakened, And an insertion tube for penetrating the support layer formed to enhance the tip end supporting force.

Description

Technical Field [0001] The present invention relates to a composite pile having improved end bearing capacity and a composite pile using the same,

The present invention relates to a composite pile reinforced with a tip end supporting force and a composite pile purchase method using the composite pile. More specifically, when a PHC pile is inserted into a support layer underneath the perforation hole by inserting an insert tube for penetrating the support layer into the perforation hole formed in the ground, The insertion tube for penetration of the support layer penetrates the slurry remaining in the perforation hole by the perforation of the perforation hole and the support layer where the strength is weakened at the lower portion thereof and the end bearing force for securing excellent end support force Reinforced composite pile and a method for constructing a composite pile using the composite pile.

Generally, the concrete pile foundation method is classified into PHC pile method, which uses piles manufactured in the factory, and field drilled pile method, which constructs piles directly on site. Among them, the PHC pile method is a method in which cement milk is injected into a perforated hole excavated by using an excavating equipment such as an excavating PHC pile method and a screw auger which install PHC piles directly on the ground, It can be divided into PHC pile method which inserts a pile, and puts a foot on the head of a PHC pile with a hammer and cures it. It is appropriately selected according to the situation or use of each construction site.

The hanger PHC pile method is divided into a PHC pile direct striking method and a straight striking method after excavation. PHC piles are used to stiffen the surrounding ground due to the vibration of the pile, thereby increasing the bearing capacity. However, The noise and vibration generated during the operation are large, which is disadvantageous in that the use thereof is restricted in urban areas and rural areas adjacent to the housing.

Therefore, in the urban area, the embedded PHC pile method is used to suppress the problems of noise and vibration generated when constructing the PHC pile. The PHC pile method can be applied to the PHC pile in low noise and low vibration conditions On the other hand, the slime remains on the bottom of the perforation hole while excavating the perforated hole with the excavation equipment such as screw auger, and the strength of the ground under the perforated hole is weaker than that of the ground due to stress relaxation, It is important to construct the PHC pile so that the end bearing capacity of the PHC pile is improved in order to secure economical efficiency in terms of the construction cost.

In general, end bearing capacity (Qp) of the PHC pile is calculated by the product of the unit area end bearing capacity (q _p) and PHC pile tip area (A _p) acting on the PHC pile tip by the following equation, again per unit area of the front end supporting force is PHC Is calculated as the product of the vertical stress (σ _v ) acting on the tip of the pile and the bearing capacity factor (N _q ) determined by the internal friction angle of the soil on which the PHC pile tip is seated.

Q _p = q _p A _p = ( _v N _q ) A _p

Therefore, to increase the tip bearing capacity of the PHC pile, the tip area (A _p ) of the PHC pile should be increased or the tip bearing capacity (q _p ) per unit area of the PHC pile should be increased. Deep penetration depth of the pile or PHC pile tip can be raised by placing it on a solid support layer.

Recently, a head extension concrete file using a reinforced plate with a patent No. 0661123 has been registered in order to improve the end bearing capacity of a pile (the invalidation is invalid through the invalid judgment). The registered patent is a construction for expanding the tip area of the PHC pile by attaching the end extension plate to the tip of the PHC pile. The tip area of the PHC pile in contact with the slime compressed by the putter increases or passes through the slime, The tip area of the PHC pile can be improved by increasing the tip area of the PHC pile in contact with the weakened support layer. However, since the tip area of the PHC pile increases, the resistance of the PHC pile can not pass through the slime, It is difficult for the PHC pile to propel the pile with a larger energy, even though the reinforcing plate of the end penetrates through the supporting layer where the strength of the lower portion of the perforation hole remaining in the slime and slime remains weak, There is a limit to improvement of the tip end holding force substantially, and excellent tip end holding force is obtained There is a problem.

In addition, the PHC pile can be installed in a very large energy so that the end extended reinforcing plate can penetrate through the support layer where the slender and slime remaining at the bottom of the perforation hole penetrate through the support layer where the strength of the bottom extended hole is low, The noise and vibration generated during hunting increase, resulting in complaints. Therefore, it is difficult to construct in rural areas adjacent to the inner city or housing.

In addition, since the PHC pile is inserted into the perforation hole which is wider than the end extension reinforcing plate, the space between the outer diameter of the PHC pile and the inner diameter of the perforation hole is widened to increase the amount of cement milk charged in the perforation hole, There was also a falling problem.

In order to solve the problem of Patent No. 0661123 described above, Patent No. 1147510 in which the tip end supporting force of the pile is increased by connecting the insertion tube for penetrating the support layer to the tip of the PHC pile has been developed. However, it is also difficult to join the insertion tube for penetration of the supporting layer to the tip of the PHC pile, and it is also difficult to align the center axis of the insertion tube for penetration of the PHC pile with the supporting pile, It takes a lot of manpower, cost, and work time to produce.

Patent No. 0661123 Patent No. 1147510

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above problems, and it is an object of the present invention to provide a PHC pile having an insertion tube for penetrating a support layer, As the resistance is reduced, the insertion tube for penetrating the support layer passes through the support layer where the strength of the lower portion of the perforation hole remaining in the perforation hole remaining in the perforation hole is reduced, so that the strength at the lower portion of the perforation hole is easily reached to the support layer. The present invention has been made to solve the above problems, and it is an object of the present invention to provide a method of purchasing a composite pile using the composite pile having enhanced tip end supporting force to minimize the generation of noise and vibration.

Another object of the present invention is to provide an insertion tube for penetrating a support layer, which is seated in a support layer having a strength lower than that of a perforation hole in which a slime is retained and is mounted, and at the same time, frictional force with the support layer is increased, The present invention also provides a method of manufacturing a composite pile using the composite pile.

It is a further object of the present invention to provide a method of manufacturing a PHC pile, in which the insertion tube for penetrating the support layer formed at the tip of the PHC pile is formed to be equal to or slightly larger than the outer diameter of the PHC pile, so that the space between the pore hole inner diameter and the PHC pile outer diameter is narrow, And a method of manufacturing a composite pile using the composite pile and a method of manufacturing the composite pile using the composite pile.

It is a further object of the present invention to provide a method of manufacturing a composite pile in which a support tube penetration insertion tube is coupled to the tip of a PHC pile to more precisely and easily connect the support tube penetration insertion tube to the tip of the PHC pile, The present invention provides a composite pile having a stable end bearing capacity.

It is still another object of the present invention to provide an insertion tube for penetrating a supporting layer and a connecting member of an insertion tube for penetrating the support layer in a completely close contact state even if the center axis of the shoe plate is easily aligned, The present invention provides a method for fastening and assembling an insertion tube for penetrating a supporting layer, which is connected to a tip of a PHC pile, for connecting a penetration tube for penetrating a supporting layer, a coupling time for shortening the assembly time, have.

Other objects, specific advantages and novel features of the present invention will become more apparent from the following detailed description and preferred embodiments with reference to the accompanying drawings.

A first object of the present invention is to provide a method of manufacturing a concrete structure, which comprises a shoe plate having a protrusion protruded downward at a lower outer periphery, a reinforcing band provided at a lower end of the shoe plate, and a PC steel wire, PHC piles cured; And the bottom of the PHC pile in such a manner that it is inserted into contact with the outer surface of the protrusion of the shower plate. The slime remaining in the perforated hole through the striking hole passes through the supporting layer where the strength of the lower portion of the perforation hole is weakened, And an insertion tube for penetrating the support layer formed to strengthen the tip end supporting force.

A second object of the present invention is to provide a PHC pile including a shoe connected to a lower end, a reinforcing band provided at a lower end, and a PC steel wire tied to the shoe at one end, A connecting part connected to the lower end of the shoe plate and formed with a protrusion protruding downward at the lower end outer periphery and safely transmitting the energy of the putter applied to the PHC pile to the supporting layer intrusion insertion pipe; And the slabs remaining in the perforated holes by the striking pawls and passing through the support layer where the strength of the lower portion of the perforation hole is weakened, And an insertion tube for penetrating the support layer formed to strengthen the tip end supporting force.

A third object of the present invention is to provide a PHC pile including a shoe coupled to a lower end, a reinforcing band provided at a lower end, and a PC steel wire coupled to the shoe at one end, And a protrusion protruding downward from the lower end outer periphery is formed. The putter energy applied to the PHC pile is inserted into the support layer penetration insertion hole, A connection to securely transmit to the pipe; And a diameter smaller than the outer diameter of the PHC pile and smaller than 1.2 times the outer diameter of the PHC pile. The slurry is connected to the lower end of the PHC pile in such a manner as to be inserted into contact with the outer surface of the protrusion of the connection part. And an insertion tube for penetrating the support layer formed to penetrate through the support layer having a lower strength at the bottom and to secure the strength at the lower portion of the perforation hole to the rigid support layer so as to strengthen the tip supporting force. .

The composite pile according to the first aspect of the present invention is radially fixed to the inner surface of the projecting portion of the lower portion of the shoe so as to safely transfer the energy of the putter applied to the PHC pile to the support tube penetration insertion tube and prevent the PHC pile tip from being deformed And a plurality of piercing reinforcing members for allowing the piercing reinforcement member to be provided.

The composite pile according to the second and third objects of the present invention is radially fixed to the inner surface of the protrusion at the lower part of the joint to safely transfer the energy of the putter applied to the PHC pile to the penetration tube for penetration of the support layer, Further comprising a plurality of pearl reinforcing members for preventing deformation.

The composite pile according to the first aspect of the present invention may be characterized in that the insertion tube for penetrating the support layer and the shoe are joined by a fastening member or welding.

The composite pile according to the second and third aspects of the present invention is characterized in that the shoe and the connecting portion are coupled by the first fastening member or by welding and the connecting portion and the insertion tube for penetrating the supporting layer are joined by the second fastening member or welding can do.

The composite pile according to the third aspect of the present invention further comprises a plurality of reinforcing members fixed to the outer circumferential surface of the reinforcing band at the lower end of the PHC pile and the upper outer circumferential portion of the connecting portion to reinforce the bending stiffness of the connecting portion, .

The composite pile according to the first aspect of the present invention is characterized in that a curved surface inclined inward is formed on the outer peripheral portion of the lower end surface of the shoe plate and an upper end surface of the insertion tube for penetrating the support layer is shaped on the curved surface .

The composite pile according to the second and third aspects of the present invention is characterized in that a curved surface inclined inward is formed on the outer peripheral portion of the lower end surface of the connection portion and an upper end surface of the insertion pipe for penetrating the support layer is shaped on the curved surface can do.

The composite pile according to the first, second, and third aspects of the present invention can be characterized in that the insertion tube for penetrating the support layer is composed of a steel pipe, an H-shaped steel or a + -shaped steel.

The composite pile according to the first, second, and third aspects of the present invention is characterized in that the length of the insertion tube for penetrating the support layer is 0.5 to 3 times the diameter of the perforation hole drilled in the ground.

The fourth object of the present invention is to provide a method of manufacturing a composite pile according to the first aspect of the present invention, in which a support pipe penetration insertion tube is fastened to a shoe of a PHC pile to which a reinforcing band is coupled. Excavating the ground to be inserted with a pile with a drilling rig to form a perforation hole; Filling the cement milk into the perforation hole; Inserting a composite pile into a perforation hole filled with cement milk; The composite pile inserted into the perforated hole is pierced by the insert piercing tube to penetrate the supporting layer. The slime and slime formed at the bottom of the perforation hole are passed through the supporting layer where the strength is weakened at the bottom of the perforation hole. So as to settle and settle; And curing the cement milk filled in the space between the outer circumferential surface of the composite pile inserted in the perforation hole and the perforation hole and the inner circumferential surface of the casing.

In the embedding method according to the fourth aspect of the present invention, it is possible to securely transfer the energy of the putter applied to the PHC pile radially fixed to the lower inner surface of the shoe to the support tube penetration insertion tube, and prevent the PHC pile tip from being deformed And a plurality of pushed-in reinforcing members for pivoting.

In the burying method according to the fourth aspect of the present invention, the insert tube for penetrating the support layer and the shoepane may be combined by a fastening member or by welding.

In the embedding method according to the fourth aspect of the present invention, a curved surface inclined inward is formed on the outer peripheral portion of the lower end surface of the shoe plate, and an upper end surface of the insertion tube for penetrating the support layer is configured to be shaped on the curved surface have.

A fifth object of the present invention is to provide a method of manufacturing a composite pile according to the second or third aspect of the present invention, in which a support pipe penetration insertion tube is fastened to a connection portion of a PHC pile coupled with a lower end of a shank, Excavating the ground to be inserted with a pile with a drilling rig to form a perforation hole; Filling the cement milk into the perforation hole; Inserting a composite pile into a perforation hole filled with cement milk; The composite pile inserted into the perforated hole is pierced by the insert piercing tube to penetrate the supporting layer. The slime and slime formed at the bottom of the perforation hole are passed through the supporting layer where the strength is weakened at the bottom of the perforation hole. So as to settle and settle; And curing the cement milk filled in the space between the outer circumferential surface of the composite pile inserted in the perforation hole and the perforation hole and the inner circumferential surface of the casing.

In the embedding method according to the fifth aspect of the present invention, it is possible to securely transfer the energy of the putter applied to the PHC pile to the support tube penetration inlet, and to prevent the deformation of the PHC pile tip due to the energy of the putter And a plurality of pushed-in reinforcing members for pivoting.

In the embedding method according to the fifth aspect of the present invention, the shoe and the connecting portion are coupled by the first fastening member or by welding, and the connecting portion and the insertion tube for penetrating the supporting layer are coupled by the second fastening member or by welding. have.

In the embedding method according to the fifth aspect of the present invention, the outer peripheral portion of the lower end surface of the connecting portion may be formed with an inclined surface inclined inward, and the upper surface of the insertion tube for penetrating the supporting layer may be shaped to be a curved surface .

In the Purchase method according to the mentioned above and the composite pile according to the first object to the third object of the present invention, the fourth object, and the fifth object, the method of manufacturing the composite pile, the coupling hole of the syupan coupled to P HC pile tip So that the first fastening member passes through the first fastening member coupling hole formed in the coupling portion coupled to the support layer penetration insertion tube and the insertion tube for penetrating the support layer is closely contacted with the shower plate ; And a step of rotating the insertion tube for penetrating the support layer so that the first fastening member is positioned in the first fastening member fastening hole and tightening the first fastening member to fasten the insertion pipe for penetrating the support plate .

As described above, according to the embodiment of the present invention, when the insertion tube for penetrating the support layer is attached to the tip of the PHC pile and inserted into the perforation hole, The strength of the lower portion of the perforation hole remaining in the perforation hole is reduced and the strength of the lower portion of the perforation hole is weakened. Thus, the strength of the bottom portion of the perforation hole is easily reached to the hardened support layer. The occurrence of noise and vibration can be minimized, so that it is possible not only to easily construct a pile having large end bearing capacity in the urban area but also to reduce air.

In addition, according to the present invention, the insertion tube for penetrating the support layer is seated in the support layer having a strength lower than that of the perforation hole where the slime remains, and the frictional force with the support layer is increased and the insertion tube for penetrating the support layer is closed PHC pile end bearing capacity is improved, so that the reliability of the product can be improved by the user, and the construction cost of the pile can be reduced and the economical efficiency can be improved.

In addition, according to the present invention, unlike Patent No. 0661123, in which the amount of cement milk filled in the perforation hole is greatly increased by using the end extension reinforcing plate for improving the tip end holding force of the pile, Since the penetration insertion pipe is formed to be equal to or slightly larger than the outer diameter of the PHC pile, the space between the inner diameter of the perforation hole and the outer diameter of the PHC pile is narrowed, thereby reducing the amount of cement milk filled in the perforation hole, You can have an advantage.

According to the present invention, unlike the patent No. 1147510 in which the tip end supporting force of the embedded pile is increased by connecting the insertion tube for penetrating the support layer to the tip of the PHC pile, the protrusion formed on the shoe or the first fastening member is used The inserting tube for penetrating the support layer is inserted into the protrusion formed on the connecting end of the PHC pile, and the inserting tube for penetrating the supporting layer is joined to the protrusion by the fastening member, the second fastening member or welding, It can have an advantage that it can be combined easily and economically.

In addition, according to the present invention, it is possible to easily align the central axis of the insertion tube for penetrating the support layer with the central axis of the shoe, and even if the head portion of the PC steel wire protrudes to the outside of the shoe plate, Therefore, it is possible to shorten the assembly time and improve the quality of the fastening portion by fastening the insertion tube for penetrating the support layer to the tip of the PHC pile.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be appreciated by those skilled in the art that various other modifications and variations can be made without departing from the spirit and scope of the invention, All fall within the scope of the appended claims.

FIG. 1 is an exploded perspective view of a composite pile reinforced with a leading end supporting force according to a first embodiment of the present invention, FIG.
FIG. 2 is a perspective view of a composite pile having enhanced end support force according to a first embodiment of the present invention,
FIG. 3A is a cross-sectional view of a composite pile reinforced with a tip end supporting force according to a first embodiment of the present invention,
FIG. 3B is a bottom view of a composite pile having a stronger end supporting force according to the first embodiment of the present invention,
FIG. 4A is a cross-sectional view of a composite pile reinforced by a welded end support force according to a first embodiment of the present invention, FIG.
FIG. 4B is a bottom view of a composite pile having a reinforced end support force coupled by welding according to a first embodiment of the present invention. FIG.
FIG. 5A is a cross-sectional view of a composite pile having a tip supporting force enhanced with an internal piercing reinforcing member according to a first embodiment of the present invention,
FIG. 5B is a bottom view of a composite pile having a tip supporting force reinforced with an internal piercing reinforcing member according to a first embodiment of the present invention,
FIG. 6A is a cross-sectional view of a composite pile having a tip supporting force reinforced by a welded reinforcing member according to a first embodiment of the present invention, FIG.
FIG. 6B is a bottom view of a composite pile having a tip supporting force reinforced with an internal piercing reinforcing member joined by welding according to a first embodiment of the present invention. FIG.
FIG. 7 is an exploded perspective view of a compounded pile having a reinforced tip end support according to a second embodiment of the present invention, FIG.
FIG. 8 is a perspective view of a composite pile having a reinforced tip end supporting force according to a second embodiment of the present invention,
FIG. 9A is a cross-sectional view of a composite pile reinforced with a leading end supporting force according to a second embodiment of the present invention,
FIG. 9B is a bottom view of a composite pile having a stronger end supporting force according to the second embodiment of the present invention,
FIG. 10A is a cross-sectional view of a composite pile reinforced by a welded end supporting force according to a second embodiment of the present invention, FIG.
FIG. 10B is a bottom view of a composite pile reinforced by a welded end support force according to a second embodiment of the present invention, FIG.
FIG. 11A is a cross-sectional view of a composite pile having a tip supporting force reinforced with an internal reinforcing member according to a second embodiment of the present invention, FIG.
FIG. 11B is a bottom view of a composite pile having a tip supporting force reinforced with an internal piercing reinforcing member according to a second embodiment of the present invention, FIG.
FIG. 12A is a cross-sectional view of a composite pile having a tip supporting force reinforced by a welded internal reinforcing member according to a second embodiment of the present invention, FIG.
FIG. 12B is a bottom view of a composite pile having a tip supporting force reinforced with an internal piercing reinforcing member joined by welding according to a second embodiment of the present invention; FIG.
13 is a cross-sectional view of a composite pile having a curved surface reinforced with a tip end supporting force according to a second embodiment of the present invention,
FIG. 14 is an exploded perspective view of a composite pile having a reinforced tip end support according to a third embodiment of the present invention, FIG.
FIG. 15 is a perspective view of a composite pile having a reinforced tip end supporting force according to a third embodiment of the present invention, FIG.
16A is a cross-sectional view of a composite pile having a reinforced end support force according to a third embodiment of the present invention,
FIG. 16B is a bottom view of a compounded pile having enhanced end support force according to the third embodiment of the present invention, FIG.
17A is a bottom view of a coupling hole in which an end of a PC steel wire is fixed and a shoe plate in which a coupling hole is formed,
17B is a bottom view of an insertion tube having a first fastening member coupling hole and a first fastening member fastening hole according to an embodiment of the present invention,
17C shows a bottom view after the shoe and the insertion tube are fastened.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings. Throughout the specification, when a part is connected to another part, it includes not only a case where it is directly connected but also a case where the other part is indirectly connected with another part in between. In addition, the inclusion of an element does not exclude other elements, but may include other elements, unless specifically stated otherwise.

Hereinafter, the structure and function of the compound pile 100 having enhanced leading end supporting force according to an embodiment of the present invention will be described. First, the structure of the composite pile 100 according to the first embodiment of the present invention will be described. FIG. 1 is an exploded perspective view of a composite pile 100 having enhanced end support force according to a first embodiment of the present invention. FIG. 2 is a perspective view of a composite pile 100 having a reinforced tip end supporting force according to a first embodiment of the present invention.

As shown in FIGS. 1 and 2, the composite pile 100 having the tip supporting force according to the first embodiment of the present invention has a protruding portion 21 coupled to the lower end and protruding downward at the lower outer circumference, A PHC pile 10 including a reinforcing band 12 provided at a lower end thereof and a PC steel wire 11 tied at one end to the shoe plate 20 and cured by pouring concrete; And the outer surface of the projecting portion 21 of the shoe plate 20 so that the slime remaining in the perforated hole is penetrated through the support layer where the strength of the lower portion of the perforation hole is weakened, And an insertion tube 30 for penetrating the supporting layer formed so that the strength of the lower portion of the hole is secured to the rigid supporting layer so as to strengthen the tip supporting force.

A load is applied to a tensile device (not shown) coupled to the shoe plate 20 in a state where the end of the PC steel wire 11 is engaged with the coupling hole 13 of the shoe plate 20 to tension the PC steel wire 11, And the PHC pile 10 is formed by a conventional method.

The length of the insertion tube 30 for penetrating the support layer is preferably 0.5 to 3 times the diameter of the perforation hole formed in the ground, .

FIG. 3A is a cross-sectional view of a composite pile 100 having a reinforced end support force according to a first embodiment of the present invention. FIG. 3B is a bottom view of the composite pile 100 having the reinforced end support force according to the first embodiment of the present invention.

3A and 3B, a composite pile 100 having a reinforced tip end supporting force is composed of a PHC pile 10 including a PC steel wire 11 and a reinforcing band (not shown) coupled to a lower outer peripheral surface of the PHC pile 10. [ 12 and the shoe plate 20 is connected to the lower end of the PHC pile 10. [

The shoe plate 20 has a ring-shaped upper end portion and a hollow tube-shaped protrusion 21 formed on the outer peripheral portion of the lower surface of the upper end portion. The support tube penetration insertion tube 30 is inserted in contact with the outer surface of the protrusion 21 and the insertion tube 30 for penetrating the support layer and the protrusion 21 of the shoe plate 20 are shown in Figs. And can be fastened by a fastening member 22 (for example, a bolt), as described above.

Also, the shoe plate 20 and the insertion tube 30 for penetrating the support layer can be joined by welding rather than the fastening member 22. FIG. 4A is a cross-sectional view of a composite pile 100 having a tip end supported by a weld according to a first embodiment of the present invention, FIG. 4B is a cross- And shows a bottom view of the composite pile 100 with enhanced bearing capacity.

4A and 4B, the shoe plate 20 of the compound pile 100 having the tip supporting force enhanced according to the first embodiment of the present invention and the insertion tube 30 for penetrating the support layer are joined by welding It can be seen that the welding portion 23 can be the lower end of the chute projection 21 or the upper end of the insertion tube 30. [

In addition, the composite pile 100 having the tip supporting force enhanced according to the first embodiment of the present invention may further include a plurality of piercing reinforcing members 31 (reinforcing ribs). 5A is a cross-sectional view of a composite pile 100 having an end supporting force enhanced with an internal reinforcing member 31 according to a first embodiment of the present invention, and FIG. 5B is a sectional view of the composite pile 100 according to the first embodiment of the present invention. And shows the bottom view of the compounded pile 100 having the end supporting force enhanced with the internal reinforcing member 31. As shown in Fig.

As shown in FIGS. 5A and 5B, the inner piercing reinforcing member 31 is radially fixed to the lower inner surface of the shoe plate 20, so that the putting energy applied to the PHC pile can be safely And to prevent the PHC pile tip from being deformed due to the energy of the putter.

6A is a cross-sectional view of a composite pile 100 having a tip end supporting force reinforced by a welded internal reinforcing member 31 according to a first embodiment of the present invention, and FIG. 6B is a cross- FIG. 5 is a bottom view of a composite pile 100 having a tip end supporting force reinforced by an internal pincushion reinforcing member 31 welded thereto according to an embodiment of the present invention. 6A and 6B, the shoe plate 20 of the composite pile 100 having the reinforcing member 31 with enhanced tip end supporting force and the insertion tube 30 for penetrating the support layer can be joined by welding , It can be understood that the welded portion 23 can be the lower end of the shoe plate 21 or the upper end of the insertion tube 30. [

Hereinafter, the structure and function of the composite pile 100 having the enhanced tip end supporting force according to the second embodiment of the present invention will be described. FIG. 7 is an exploded perspective view of a composite pile 100 having a reinforced tip end supporting force according to a second embodiment of the present invention, and FIG. 8 is a perspective view illustrating a composite pile 100 having a tip supporting force enhanced according to a second embodiment of the present invention. 100 shown in Fig.

As shown in FIGS. 7 and 8, the composite pile 100 having the tip supporting force enhanced according to the second embodiment of the present invention includes a shoe plate 20 coupled to the lower end, a reinforcement band 12 provided at the lower end, A PHC pile (10) including a PC steel wire (11) having one end joined to the shoe plate (20) and cushioned by pouring concrete; A protrusion 41 protruding downward from the lower end peripheral edge of the lower end of the shoe plate 20 is formed and a connection part for safely delivering the putter energy applied to the PHC pile 10 to the support layer penetration insertion pipe 30 40); And the outer surface of the protrusion 41 of the connecting portion 40. The slurry remaining in the perforated hole is penetrated through the support layer where the strength of the lower portion of the perforation hole is weakened, And an insertion tube (30) for penetrating the supporting layer formed on the bottom of the hole so that the strength of the bottom of the hole is secured to the rigid supporting layer to strengthen the tip supporting force.

9A is a cross-sectional view of a composite pile 100 having a tip supporting force enhanced according to a second embodiment of the present invention, and FIG. 9B is a cross-sectional view of a composite pile 100 with a tip supporting force enhanced according to the second embodiment of the present invention. (100). ≪ / RTI > As shown in FIGS. 7, 8, 9A and 9B, the shape of the shoe plate 20 is different from that of the first embodiment, and the connection part 40 is further included.

The PHC pile 10 has a tensile device (not shown) coupled to the shoe plate 20 in a state where the end of the PC steel wire 11 is engaged with the coupling hole 13 of the shoe plate 20 as in the first embodiment. The PC steel wire 11 is tensed by applying a load to the PHC pile 10 to form a PHC pile 10 by pouring and curing concrete. Such a PHC pile 10 is formed by a conventional method.

The length of the insertion tube 30 for penetrating the support layer is 0.5 to 3 times the diameter of the perforation hole formed in the ground.

The shoe plate 20 according to the second embodiment does not include the projections 21 differently from the first embodiment, and the composite pile 100 having the tip supporting force enhanced further comprises the connecting portion 40. The shoe plate 20 according to the second embodiment of the present invention is formed of a metal in the form of a circular ring. The connecting portion 40 has a circular ring-shaped upper end portion and a lower outer peripheral portion of the upper end portion formed with a projection 41 having a hollow tube shape .

In addition, the shoe plate 20 and the connecting portion 40 can be fastened by the first fastening member 24 (for example, a bolt) as shown in Figs. 7, 8, 9A and 9B . The support tube penetration insertion tube 30 is inserted in contact with the outer surface of the protrusion 41 of the connection portion 40 and is inserted into the protrusion 41 of the connection portion 40 and the upper surface of the insertion tube 30 for penetrating the support layer The second fastening member 25 is inserted into the fastening hole so that the connecting portion 40 and the insertion tube 30 for penetrating the support layer can be fastened.

The connecting portion 40 and the insertion tube 30 for penetrating the support layer may be joined by welding rather than the second fastening member 25. [ FIG. 10A is a cross-sectional view of a composite pile 100 having a reinforced end supporting force coupled by welding according to a second embodiment of the present invention. FIG. 10B is a bottom view of the composite pile 100 having the tip supporting force enhanced by welding according to the second embodiment of the present invention.

10A and 10B, the connection portion 40 of the composite pile 100 having the tip supporting force enhanced according to the second embodiment of the present invention and the insertion tube 30 for penetrating the support layer are joined by welding And the welding portion 23 can be the lower end of the projection 41 of the connection portion 40 or the upper end of the insertion tube 30. [

In addition, the composite pile 100 having the tip supporting force enhanced according to the second embodiment of the present invention may further include a plurality of piercing reinforcing members 31 (reinforcing ribs). FIG. 11A is a cross-sectional view of a composite pile 100 having an end support force enhanced with an internal reinforcing member 31 according to a second embodiment of the present invention, and FIG. 11B is a cross-sectional view of a composite pile 100 according to a second embodiment of the present invention And shows the bottom view of the compounded pile 100 having the end supporting force enhanced with the internal reinforcing member 31. As shown in Fig.

As shown in FIGS. 11A and 11B, the inner piercing reinforcing member 31 is radially fixed to the inner surface of the protruding portion 41 at the lower portion of the connecting portion 40 so that the putting energy applied to the PHC pile 30) to prevent the PHC pile tip from being deformed by the energy of the putter.

 12A is a cross-sectional view of a composite pile 100 having a tip end supporting force reinforced by welding, which is welded according to a second embodiment of the present invention, FIG. 12B is a cross- FIG. 5 is a bottom view of a composite pile 100 having a tip end supporting force reinforced by an internal pincushion reinforcing member 31 welded thereto according to an embodiment of the present invention. 12A and 12B, the connecting portion 40 of the composite pile 100 having a reinforcing member and having a reinforced tip end supporting force and the insertion tube 30 for penetrating the support layer can be joined by welding, The lower end of the protrusion 41 of the connection part 40 and the upper end of the insertion tube 30 can be seen.

In addition, one side of the contact surface between the connection portion 40 and the insertion tube 30 for penetrating the support layer may be formed as a curved surface 26. 13 shows a cross-sectional view of a composite pile 100 having a tip supporting force enhanced with a curved surface 26 according to a second embodiment of the present invention. 13, a curved surface 26 inclined inward is formed on the outer peripheral portion of the lower end surface of the connection portion 40, and an upper end surface of the insertion tube 30 for penetrating the support layer is formed on the curved surface 26 It can be seen that it can be configured to be shaped. Therefore, by forming the curved surface 26, it is possible to increase the fastening force between the connection portion 40 and the insertion tube 30 for penetrating the support layer.

Hereinafter, the structure and function of the composite pile 100 having the tip supporting force enhanced according to the third embodiment of the present invention will be described. 14 is an exploded perspective view of a composite pile 100 having a reinforced tip end supporting force according to a third embodiment of the present invention. FIG. 15 is a perspective view of a composite pile 100 having a tip supporting force enhanced according to a third embodiment of the present invention.

As shown in FIGS. 14 and 15, the composite pile 100 having the tip supporting force enhanced according to the third embodiment has a shoe plate 20 coupled to the lower end, a reinforcing band 12 provided at the lower end, A PHC pile (10) including a PC steel wire (11) coupled to the shoe (20) and taut and cured by pouring concrete; A protruding portion 41 which is coupled to the lower end of the shoe plate 20 and has a diameter larger than the outer diameter of the PHC pile 10 and smaller than 1.2 times the outer diameter of the PHC pile 10 and projecting downward at the lower outer peripheral edge, A connection part 40 for safely transferring the energy of the putter applied to the PHC pile 10 to the support tube penetration insertion pipe 30; Of the PHC pile 10 and a diameter smaller than the outer diameter of the PHC pile 10 and smaller than 1.2 times the outer diameter of the PHC pile 10 and is inserted into contact with the outer side surface of the projecting portion 41 of the connecting portion 40, , And a support layer penetration insertion tube (30) formed to penetrate the support layer where the strength of the lower portion of the perforation hole is weakened through the slit remaining in the perforation hole by the putter and to secure the strength at the lower part of the perforation hole As shown in FIG.

The composite pile 100 having the tip supporting force enhanced according to the third embodiment of the present invention has basically the same structure as that of the second embodiment except that the outer diameter of the connecting portion 40 and the outer diameter of the insertion tube 30 for penetrating the support layer Is larger than the outer diameter of the PHC pile (10). More specifically, the outer diameter of the connecting portion 40 and the outer diameter of the insertion tube 30 for penetrating the support layer are larger than the outer diameter of the PHC pile 10 and smaller than 1.2 times the outer diameter of the PHC pile 10.

FIG. 16A is a cross-sectional view of a composite pile 100 having a tip supporting force enhanced according to a third embodiment of the present invention, and FIG. 16B is a cross-sectional view of a composite pile 100 As shown in FIG. The composite pile 100 according to the third embodiment is radially fixed to the inner surface of the protruding portion 41 under the connection portion 40 so that the putting energy applied to the PHC pile is inserted into the support layer- And a plurality of piercing reinforcing members 31 for safely transferring the pierced water to the pipe 30 and preventing deformation of the tip of the PHC pile due to the putting energy.

In the composite pile 100 according to the third embodiment of the present invention, as in the second embodiment, the shoe plate 20 and the connecting portion 40 can be joined by the welding or the first fastening member 24 , The connection portion 40 and the insertion tube 30 for penetrating the support layer may also be joined by welding or the second fastening member 25.

14, 15, 16A, and 16B, the composite pile 100 according to the third embodiment of the present invention has a structure in which the outer peripheral surface of the reinforcing band at the lower end of the PHC pile 10 and the outer peripheral surface of the connecting portion 40 And a reinforcing member 50 that is fixed to the upper peripheral portion and reinforces the bending stiffness of the connection portion coupled with the insertion tube 30 for penetrating the support layer.

Hereinafter, a process for manufacturing the composite pile 100 of the present invention will be described briefly. First, the PC steel wire 11 is tensioned by applying a load to a tension device (not shown) coupled to the shoe plate 20 in a state where the end of the PC steel wire 11 is coupled to the coupling hole 13 of the shoe plate 20 After the concrete is poured and cured to form the PHC pile 10, the PHC pile 10 is formed by a conventional method.

In the first embodiment, the support tube penetration insertion tube 30 is inserted in contact with the outer surface of the hollow tube-like protrusion 21 formed on the outer periphery of the shoe plate 20 of the formed PHC pile 10, 30 and the shoe plate 20 are joined by the welding or fastening member 22.

In the second embodiment, the connection portion 40 is fixed to the shoe plate 20 of the formed PHC pile 10, the connection portion 40 being coupled to the head portion of the insertion tube 30 for penetrating the support layer. The insertion tube 30 for penetrating the support layer has a connecting portion 40 And the joining portion 40 and the shoe plate 20 are welded or joined together by the first fastening member 24. [

And the internal reinforcing member 31 (reinforcing rib) may be coupled to the lower surface of the shoe plate 20 or the lower surface of the connecting portion 40. When the composite pile 100 manufactured by the above process is completed, the composite pile 100 is embedded in the ground.

In order to embed the composite pile 100, the ground where the composite pile 100 is to be inserted is drilled with a drilling rig to form a perforation hole having a size 1.1 to 1.2 times larger than the outer diameter of the composite pile 100 A slime is formed on the bottom surface of the perforation hole while forming the perforation hole.

The thickness of the slime becomes thicker as the depth of the hole is larger and the strength of the ground becomes smaller. When forming the perforation hole in the ground using the excavation equipment such as a screw auger, The strength decreases from the bottom of the perforated hole to about 3 times the diameter of the perforated hole in the weathered rock, and the strength decreases from the bottom of the perforated hole to about 0.5 times the diameter of the perforated hole in soft rock, The insertion tube 30 is preferably 0.5 to 3 times the diameter of the perforation hole depending on the type of the ground. This is because when the length of the insertion tube 30 for penetrating the support layer is too short, the PHC pile 10 having a larger cross-sectional area than the insertion tube 30 for penetrating the support layer penetrates the slurry remaining in the perforation hole, The energy consumption and the number of times of wearing of the stool may be unnecessarily increased because the strength of the lower portion of the perforation hole must pass through the weakened support layer. On the other hand, if the length of the insertion tube 30 for penetrating the support layer is too long, The PHC pile 10 having a large cross-sectional area is not brought into close contact with the bottom of the perforation hole but floats in the perforation hole when the insertion tube 30 penetrates into the rigid supporting layer under the perforated hole, And the material cost of the insertion tube 30 for penetrating the support layer is expensive, which is uneconomical.

Also, when the ground is not viscous or has a small viscosity such as sand, it is recommended to use a casing with a diameter of 1.1 to 1.2 times the diameter of the PHC pile (10) to prevent collapse of the soil on the inner surface of the hole when excavating the hole The diameter of the insertion tube 30 for penetrating the support layer is larger than the diameter of the hollow portion of the PHC pile 10 and smaller than 1.2 times of the outer diameter so that it can be inserted into the casing.

When the cement milk is filled in the perforation hole and the casing and the slime and cement milk remaining in the perforation hole are stirred using a drilling rig (for example, a screw auger), and the composite pile 100 is inserted into the perforation hole and casing, The cement milk is moved and filled in the space between the outer peripheral surface of the composite pile 100 and the perforated hole and the inner peripheral surface of the casing.

When the compound pile 100 inserted into the perforation hole and the casing is touched, the insertion tube 30 for penetrating the support layer of the composite pile 100 is inserted into the perforation hole and the lower portion of the perforation hole where the slime and slime remaining in the casing remain. The strength passes through the weakened support layer and is penetrated into the hardened support layer under the perforation hole.

At this time, when the insertion tube 30 for penetrating the support layer passes through the support layer in which the strength of the lower portion of the slime and the hole is weakened, frictional force is developed between the insertion tube 30 for penetrating the support layer and the inner tube located therein, Or the connecting portion 40, the clogging effect of the insertion tube 30 for penetrating the support layer is increased.

The slime located inside the support tube penetration insertion tube 30 is discharged to the hollow portion of the PHC pile 10 and the slime not discharged to the hollow portion of the PHC pile 10 is inserted into the upper end portion of the insertion tube 30 for penetrating the support layer. (Not shown) radially formed and a space formed between the support pipe penetration insertion tube 30 and the shoe plate 20 so that the inside of the insertion tube 30 for penetrating the support layer is filled with hard soil and cement The stiffness of the soil in the pipe increases with the filling with milk only and the insertion tube 30 for penetrating the support layer is easily penetrated into the rigid support layer in the lower part of the perforation hole by the putter due to the decrease of the penetration resistance so that the tip supporting force of the composite pile 10 It can be improved.

Here, the connection portion 40 of the composite pile 100 is coupled by the fastening member 20 and the first fastening member 24, but the energy applied to the PHC pile 10 is fixed by welding to the connection portion 40 and the upper end of the insertion tube 30 for penetrating the support layer and the upper end of the insertion tube 30 for penetrating the support layer and the connecting portion 40, So that the energy of the putter applied to the PHC pile can be efficiently transferred to the support tube penetration insertion tube 30 and the deformation of the tip of the PHC pile due to the energy of the putter can be prevented.

When the PHC pile 10 shoe plate 20 of the composite pile 100 is brought into close contact with the bottom surface of the perforation hole by the above process and the insertion tube 30 for penetrating the support layer penetrates through and penetrates into the hardened bottom layer, The composite pile 100 is moved into the space between the outer circumferential surface of the composite pile 100 and the inner circumferential surface of the casing to cure the filled cement milk, thereby completing the process of filling the composite pile 100.

Since the insertion tube 30 for penetrating the support layer of the composite pile 100 penetrates into and penetrates into the hardened support layer in the lower portion of the perforation hole to improve the tip end supporting force of the composite pile 100, The load can be stably supported.

Hereinafter, another example of the assembling and fastening method of the above-mentioned tip of the PHC pile tip and the insertion tube for penetrating the support layer will be described. 17A shows a bottom view of a shoe plate 20 formed with a coupling hole 27 and a coupling hole 28 to be coupled to the front end of the PHC pile 10. As shown in Fig. 17A, in order to introduce a tensile force into the PC steel wire 11 in the process of manufacturing the PHC pile 10, the end of the PC steel wire 11 is inserted into the engaging hole 27 formed in the shoe plate 20, The PC steel wire 11 is fixed in a state in which the PC steel wire 11 is moved toward the fastening hole 28 side by rotating the feed board 20.

17B is a side view of the connection part 40 coupled with the insertion tube 30 for penetrating the support layer formed with the first fastening member coupling hole 32 and the first fastening member fastening hole 33 according to the embodiment of the present invention FIG. 17B, the second fastening member 25 or the connecting portion 40 welded to the insertion tube 30 for penetrating the supporting layer according to the embodiment of the present invention is provided with a first fastening member engaging hole 32 and the first fastening member fastening hole 33 can be formed. In order to assemble and fasten the insertion tube 30 for penetrating the supporting layer having the connecting portion 40 connected to the shoe plate 20 of the PHC pile 10 at the front end thereof, The first fastening member 24 is inserted and penetrated through the first fastening member engaging hole 32 of the connecting portion 40 engaged with the supporting layer penetration insertion tube 30, The insertion tube 30 is brought into close contact with the shoe plate 20.

The first fastening member 24 fastened to the shoe plate 20 by rotating the insertion tube 30 for supporting layer penetration in a counterclockwise or clockwise direction is inserted into a first fastening member fastening hole 33 and then the first fastening member 24 is fully tightened to assemble and fasten the insertion tube 30 for penetrating the supporting layer into the shoe plate 20 at the tip of the PHC pile 10. [ 17C is a bottom view after the insertion tube 30 for penetrating the support layer is fastened to the shoe plate 20 at the tip of the PHC pile 10. [ By adopting such a method, it is easy to align the center axis of the support pipe penetration insertion tube 30 with the center axis of the shoe plate 20, and even if the head of the PC steel wire 11 protrudes outside the shoe plate 20, It is possible to shorten the time for fastening and assembling the support tube penetration insertion tube 30 to the tip of the PHC pile 10 and to improve the quality of the fastening site .

Although the present invention has been described in connection with certain exemplary embodiments and drawings, it is to be understood that the phraseology and terminology used herein are for the purpose of description and should not be interpreted to limit the scope of the present invention. It must be interpreted in terms of meaning and concept. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only examples of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It is to be understood that equivalents and modifications are possible.

10: PHC piles
11: PC wire
12: reinforcement band
13: Coupling hole
20: Stefan
21: protrusion of steamer
22: fastening member
23:
24: first fastening member
25: second fastening member
26: curved face
27: Coupling hole
28: fastening hole
30: Insertion tube for penetration of support layer
31: Inner inserting reinforcement member
32: first fastening member engaging hole
33: first fastening member fastening hole
40:
41: protrusion of the connection part
50: reinforcing member
100: Composite pile with strong bearing capacity

Claims (22)

PHC pile, hollow pillar type, cured by concrete pouring;
A plate-like shoe coupled to a lower end of the PHC pile perpendicularly to an axial direction of the PHC pile;
A reinforcing band provided to surround the lower end of the PHC pile;
A PC steel wire having one end coupled to the shoe and taut to fix the shoe and the PHC pile;
And a protruding portion protruding downward from the lower end outer periphery of the PHC pile is coupled to the lower end of the shoe plate to transfer the energy of the putter applied to the PHC pile to the insertion tube for penetrating the support layer, A connection portion for preventing deformation of the base member;
A plurality of internal pushed reinforcing members for preventing the deformation of the tip of the PHC pile due to the putting energy while radially fixed to the inner surface of the protrusion of the lower portion of the connecting portion to safely transmit the energy of the putter applied to the PHC pile to the support tube penetration insertion pipe, ;
A slime remaining in the perforated hole due to the putter is inserted into the outer surface of the protruding portion in such a manner that the inner side of the protruded portion is inserted in contact with the lower end of the PHC pile and passes through the weakened supporting layer located under the perforated hole, An insertion tube for penetrating the support layer formed on the support layer and having a diameter which is greater than or equal to the outer diameter of the PHC pile and which is smaller than 1.2 times the outer diameter of the PHC pile to strengthen the tip supporting force; And
An inner inclined curved surface formed at an outer peripheral portion of a lower end surface of the connection portion;
/ RTI >
Wherein an upper end surface of the insertion tube for penetrating the supporting layer is configured to be fitted to the curved surface,
Wherein the shoe and the connecting portion are joined by a first fastening member or by welding,
The connecting portion and the insertion tube for penetrating the support layer are joined by a second fastening member or by welding,
A first fastening member engaging hole formed in the connecting portion and used to fasten the connecting portion to the shoe by using the first fastening member so that the central axis of the shoe and the connecting portion can easily be matched and the quality of the fastening portion is improved, And the first fastening member fastening hole is formed.
delete delete delete delete delete delete delete The method according to claim 1,
Further comprising a reinforcing member fixed to the outer circumferential surface of the reinforcing band at the lower end of the PHC pile and the outer circumferential portion of the upper end of the connecting portion to reinforce the bending stiffness of the connecting portion coupled with the insertion tube for penetrating the supporting layer.
delete delete delete delete delete delete delete delete A method of manufacturing a composite pile according to any one of claims 1 to 3, wherein a supporting pipe penetration insertion pipe is fastened to a connection portion of a PHC pile coupled with a reinforcing band at a lower end of a shower plate.
Drilling the ground to be inserted with the drilling rig to form a perforation hole;
Filling the cement milk into the perforation hole;
Inserting a composite pile into the perforation hole filled with the cement milk;
The composite pile inserted into the perforated hole is tapped and the insertion tube for penetrating the support layer of the composite pile passes through the slurry formed at the bottom of the perforated hole and the weakened layer at the lower part of the perforated hole where the slime remains, So as to be seated;
And curing the filled cement milk in a space between the outer circumferential surface of the composite pile inserted into the perforation hole and the perforation hole and the inner circumferential surface of the casing.
delete delete delete 19. The method of claim 18,
The step of fabricating the composite pile may include:
A step of inserting the end of the PC steel wire into a joint hole formed in the shoe plate, rotating the shoe plate and fixing the PC steel wire while moving to the fastening hole side;
Joining the first fastening member to the coupling hole of the shoe plate to which the end of the PC steel wire is fixed;
The first fastening member passing through the first fastening member coupling hole formed in the coupling portion coupled to the support layer penetration insertion tube and closely contacting the coupling portion coupled with the insertion tube for penetrating the support layer to the shoe plate;
Rotating the insertion tube for penetrating the supporting layer to place the first fastening member in a first fastening member fastening hole formed in the fastening member; And
And tightening the first fastening member to fasten the insertion tube for penetrating the support layer to the shoe plate.

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