KR102501699B1 - Composite Pile Using Steel Pipe - Google Patents

Abstract

The present invention relates to a composite pile using a small-diameter steel pipe and, more specifically, to a composite pile capable of using the same method as an existing PHC manufacturing method using a joint member or without a joint part by embedding a small-diameter steel pipe into the concrete in an upper section of a pile where horizontal force and moment act when the pile is constructed in the ground and capable of effectively responding to upper horizontal force and bending moment by having high bending resistance due to the arching effect of the small-diameter steel pipe. A preferred embodiment of the present invention includes: a concrete pile body with a hollow formed vertically in a center part; a reinforcing bar network composed of a plurality of steel bars arranged in a vertical direction and strip reinforcing bars connecting the plurality of steel bars and formed inside the concrete pile body; and a plurality of small-diameter steel pipes having a hollow formed through the center part and formed inside the concrete pile body in a section extending from the upper end of the concrete pile body to the lower part at a certain distance.

Description

Composite Pile Using Steel Pipe}

The present invention relates to a composite pile using a small-diameter steel pipe, and more particularly, to use a joint member by embedding a small-diameter steel pipe in concrete in the upper section of the pile where horizontal force and moment act when the pile is constructed underground. It relates to a composite pile that can be manufactured in the same way as the existing PHC manufacturing method because there is no joint or joint, and has high bending resistance due to the arching effect of small diameter steel pipe to effectively respond to the upper horizontal force and bending moment.

When an external force (load) is applied to the pile in a state where the pile is embedded in the ground, a large bending moment acts on the pile in addition to the vertical compressive force from the ground to a certain depth. This will act as the main load.

Therefore, in the prior art, in order for the pile to exert sufficient stiffness against the bending moment in the upper section of the pile where the horizontal force and moment act when the pile is constructed in the ground, the upper part of the pile uses a steel pipe pile with excellent shear and bending resistance and compressive force The lower part of the pile, which mainly acts, is to secure safety and economy by using a composite pile composed of PHC piles.

However, in the case of such a composite pile, as shown in FIG. 8, the material cost is high because the steel pipe 910 is used at the top of the pile 90, and the joint between the upper steel pipe 910 and the lower PHC pile 920 There was also a problem in that an expensive connecting device 930 had to be used and it was not easy to connect using a connecting device such as welding hardware, and a wide working space was required for horizontal upper and lower pile joints.

In addition, as shown in FIG. 9, the required length of the steel pipe ( l 1) and the length ( l 2) of the PHC pile vary according to the change in the support layer during pile construction, so there is a problem in that a separate standard is required according to the change in the support layer.

As a background technology of the present invention, there is Patent Publication No. 2019-0048500 "Composite pile consisting of a PHC pile and a steel pipe connected using a bolted coupling member" (Patent Document 1). In the background art, 'the PHC pile 10 in which the PC nut 12 is embedded along the circumferential direction so that the hollow 11 is formed along the longitudinal axis in the center of the cross section and exposed to the end; It is composed of a circular steel plate, and bolt holes 211 are drilled at regular intervals in the circumferential direction, and the lower steel plate 21 is bolted to the top of the PHC pile 10, and the connecting steel pipe whose lower end is coupled to the upper surface of the lower steel plate 21 ( 22), the upper steel plate 23 to which the lower surface is coupled to the upper end of the connecting steel pipe 22, the first bolt holes 241 are formed at regular intervals in the circumferential direction, and the connecting steel pipe 22 and the upper surface of the upper steel plate 23 A coupling member 20 composed of joint steel pipes 24 coupled to have the same longitudinal axis; The second bolt hole 31 is formed at a corresponding position of the first bolt hole 241 of the joint steel pipe 24 and has the same inner diameter as the outer diameter of the joint steel pipe 24, so that the joint steel pipe 24 of the coupling member 20 We propose a composite pile consisting of a PHC pile and a steel pipe connected using a bolt-on type coupling member, characterized in that it comprises a steel pipe pile 30 bolted to.

However, the above background art also combines the steel pipe pile 30 using the coupling member 20 on the top of the PHC pile 10, and there is a problem that the material cost is expensive and the connection is not easy.

Patent Publication No. 2019-0048500 "Composite pile consisting of PHC pile and steel pipe connected using a bolted coupling member"

The present invention is to solve the above problems, and it can be manufactured in the same way as the existing PHC pile manufacturing method, so it is easy to manufacture, and cost can be reduced because there is no joint connecting with a separate connecting member, etc. The purpose is to provide a composite pile that can respond to changes in the supporting layer without requiring a separate standard.

The present invention is a concrete pile body in which a hollow is formed in the vertical direction in the central portion; A reinforcing bar network composed of a plurality of steel rods configured in a vertical direction and a strip reinforcing bar connecting the plurality of steel rods, and configured inside the concrete pile body; A hollow is formed through the central portion, and a plurality of small-diameter steel pipes configured inside the concrete pile body in the section from the upper end to the lower part of the concrete pile body to a certain distance; It is intended to provide a composite pile.

In addition, the small-diameter steel pipe is to provide a composite pile using a small-diameter steel pipe, characterized in that the small-diameter steel pipe is configured by being fixed to the outside of the steel bar of the reinforcing bar network.

In addition, the small-diameter steel pipe is to provide a composite pile using a small-diameter steel pipe, characterized in that the small-diameter steel pipe is configured by being fixed to the inside of the steel bar of the reinforcing bar network.

In addition, the small-diameter steel pipe is intended to provide a composite pile using a small-diameter steel pipe, characterized in that it is configured to replace the steel bar of the reinforcing bar network in the section from the upper end to the lower part of the concrete pile body to a certain distance.

In addition, the small-diameter steel pipe is to provide a composite pile using a small-diameter steel pipe, characterized in that the steel bar and the small-diameter steel pipe are alternately configured in the section from the upper end of the concrete pile body to the lower part to a certain distance.

In addition, the small-diameter steel pipe wave is to provide a composite pile using a small-diameter steel pipe, characterized in that the section from the upper end of the steel bar of the reinforcing bar network to the lower portion of the steel bar is inserted into the hollow of the small-diameter steel pipe.

In addition, to provide a composite pile using a small-diameter steel pipe, characterized in that one or more plate-shaped shear reinforcing plates are configured on the outside of the reinforcing bar network.

In addition, to provide a composite pile using a small-diameter steel pipe, characterized in that the shear reinforcement plate is configured to spirally wrap the outer surface of the reinforcing bar network.

In addition, a composite pile using a small diameter steel pipe, characterized in that a lifting groove is formed at the outer end of the shear reinforcing plate in the center and a finishing material is inserted into the lifting groove, so that the outer end of the finishing material is exposed in the concrete pile body. want to provide

In addition, the longitudinal end of the concrete pile body is configured with a connection plate through which a plurality of fasteners are through, respectively, the inner circumferential surface of the end section of the steel pipe pile is threaded, and a bolt-type fastening member threaded on the outer circumferential surface It is intended to provide a composite pile using a small-diameter steel pipe, characterized in that it is screwed to the steel pipe pile through.

In addition, at the longitudinal end of the concrete pile body, a connection plate through which a plurality of fasteners are through, respectively, the outer circumferential surface of the end section of the steel pipe pile is threaded, and a bolt-type fastening member threaded on the inner circumferential surface It is intended to provide a composite pile using a small-diameter steel pipe, characterized in that it is screwed to the steel pipe pile through.

The composite pile using the small-diameter steel pipe of the present invention is configured by embedding the small-diameter steel pipe inside the concrete in the upper section of the pile where the horizontal force and moment act when the pile is constructed in the ground, thereby providing high bending resistance due to the arching effect of the small-diameter steel pipe Equipped with, it is possible to effectively respond to the upper horizontal force and bending moment.

In addition, it is easy to manufacture because it can be manufactured in the same way as the existing PHC manufacturing method, and cost can be reduced because there is no joint to connect with a separate connecting member, etc. It has a very useful effect in that it is free to adjust the length and can respond to the change of the support layer without the need for a separate standard.

The following drawings attached to this specification illustrate a preferred embodiment of the present invention, and together with the detailed description of the present invention serve to further understand the technical idea of the present invention, the present invention is limited to those described in the accompanying drawings. It should not be construed as limiting.
1 is a perspective view of a composite pile using a small-diameter steel pipe of the present invention.
FIG. 2 is a partial cross-sectional view of FIG. 1 .
3 and 4 are perspective views of various embodiments of a reinforcing bar network used in the present invention.
5 is a perspective view showing various embodiments in which a shear reinforcing plate is configured in a reinforcing bar network in the present invention.
6 is a cross-sectional view of an embodiment in which a shear reinforcing plate is configured in the present invention.
7 is a cross-sectional view showing a fixed embodiment of the small-diameter steel pipe of the present invention.
8 is a view showing a conventional PHC composite pile.
9 is a diagram showing an embodiment constructed with a conventional PHC composite pile.

Below, the present invention will be described in detail with reference to the embodiments presented in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

Hereinafter, the technical configuration of the present invention according to a preferred embodiment will be described in detail.

1 is a perspective view of a composite pile using a small diameter steel pipe of the present invention, FIG. 2 is a partial cross-sectional view of FIG. 1, and FIGS. 3 and 4 are perspective views of various embodiments of the reinforcing bar network used in the present invention.

In general, the PHC pile is a concrete pile body 10 in which a hollow 110 is formed in the vertical direction at the center, a plurality of steel rods 210 configured in the vertical direction, and a steel strip connecting the plurality of steel rods 210 ( 220) is constructed and manufactured inside the concrete pile body 10.

In particular, the composite pile 1 using the small-diameter steel pipe of the present invention is made in the same form as the general PHC pile in which a hollow 110 is formed in the vertical direction at the center because there is no joint member such as a separate joint or joint hardware. Because of this, the reinforcing bar network 20 with the small diameter steel pipe 30 installed on the existing PHC pile production line is placed and manufactured, or a mold is made to insert the reinforcing bar network 20 with the small diameter steel pipe 30 installed in the production line. It can be manufactured in the same way as general PHC piles.

As shown in Figure 2, in the present invention, when the pile is constructed in the ground, the small diameter steel pipe 30 is embedded in the concrete body 10 in the upper section (L) of the pile where the horizontal force and moment act, so that the small diameter The arching effect of the steel pipe 30 has high bending resistance to effectively respond to the upper horizontal force and bending moment of the pile.

As shown in FIG. 3, the small-diameter steel pipe 30 has a tubular shape in which a hollow 310 is formed through the central portion. Such a small-diameter steel pipe 30 may be made of various materials such as steel and stainless steel.

As shown in FIGS. 1 and 2, such a small-diameter steel pipe 30 is configured inside the concrete pile body 10 in a section L from the upper end of the concrete pile body 10 to a certain distance from the bottom, The length in which the small-diameter steel pipe 30 is installed can be configured in various ways.

At this time, the small-diameter steel pipe 30 is pre-installed on the reinforcing bar network 20. As shown in FIG. 2, the small-diameter steel pipe 30 is a section (L ) can be configured by replacing the steel bar 210 of the reinforcing bar network 20.

In addition, although not shown, the steel rod 210 may be inserted into the hollow 310 of the small-diameter steel pipe 30 at the time of high load.

As shown in FIG. 3, the small-diameter steel pipe 30 may be configured by being fixed to the outside of the steel bar 210 of the reinforcing bar network 20, respectively. At this time, the small-diameter steel pipe 30 to the outside of the reinforcing bar network 20 ) is tied and fixed in half-life, put in a formwork, and the subsequent process can proceed in the same way as PHC pile production.

In addition, as shown in FIG. 4, the small-diameter steel pipe 30 may be configured to be fixed to the inside of the steel bar 210 of the reinforcing bar network 20, respectively. At this time, the small-diameter steel pipe 30 is tied and fixed inside the reinforcing bar network 20 in half, and then placed in a formwork and cast, and the subsequent process can proceed in the same way as PHC pile production.

In particular, although not shown, the steel bar 210 and the small-diameter steel pipe 30 are alternately configured in the section L from the upper end of the concrete pile body 10 to the lower part to a certain distance, so that at high load, the steel bar 210 ), the small-diameter steel pipe 30, the steel bar 210, and the small-diameter steel pipe 30 are alternately positioned so that it can be used as a hybrid concept.

5 is a perspective view showing various embodiments in which a shear reinforcing plate is configured in a reinforcing bar network in the present invention. In FIG. 5, the illustration of the reinforcing bar 220 in the reinforcing bar network 20 is omitted for convenience.

As shown in FIG. 5A, one or more plate-shaped shear reinforcing plates 50 may be configured on the outside of the reinforcing bar network 20.

As shown in FIG. 5A, the shear reinforcing plate 50 is inserted into the reinforcing bar network 20 in a disk shape with a hole in the center and is composed of a shape surrounding the outside of the reinforcing bar network 20, so as to serve as shear reinforcement and buckling prevention structures can be reinforced. At this time, the shear reinforcing plate 50 may be configured at equal intervals or unequal intervals along the entire length of the concrete body 10, or may be composed of only one or may be installed only in a necessary section.

In addition, as shown in FIGS. 5B and 5C, the shear reinforcing plate 50 may be configured to spirally surround the outer surface of the reinforcing bar network 20.

In this way, when the shear reinforcing plate 50 is formed in a spiral shape, as in FIG. 5c, the spiral may be continuously configured, or as in FIG. 5b, one or more spirals may be configured intermittently.

At this time, it may also be formed in the entire section or part of the concrete pile body 10, and one or a plurality of them may be installed at equal or unequal intervals.

6 is a cross-sectional view of an embodiment in which a shear reinforcing plate is configured in the present invention.

The shear reinforcement plate 50 is configured to reinforce shear and buckling. At this time, as shown in FIG. 6A, the outer end of the shear reinforcement plate 50 is exposed to the concrete pile body 10 at the outer end of the finishing material 520. It can be purchased and configured as much as possible.

In particular, since the pile is difficult to lift during lifting, in the present invention, as shown in FIGS. 6B and 6C, the shear reinforcing plate formed on the composite pile 1 by forming a lifting groove 510 in the shear reinforcing plate 50 Lifting can be facilitated by using the lifting groove 510 of (50).

To this end, a lifting groove 510 is formed in the center at the outer end of the shear reinforcing plate 50, and the finishing material 520 is inserted into the lifting groove 510, so that the outer side of the finishing material 520 is attached to the concrete pile body 10. It is configured to be embedded so that the end is exposed.

The lifting groove 510 may be formed in a shape in which a partial section of the central portion of the thickness of the outer end of the shear reinforcing plate 50 is drawn inward, as shown in FIG. 6B, a triangular cross section or as shown in FIG. 6C, a rectangular cross section. can be made with

At this time, for a sufficient size of the lifting groove 510, the thickness of the outer end of the shear reinforcing plate 50 may be thicker than the thickness of the central portion.

In this way, the finishing material 520 inserted into the lifting groove 510 serves to prevent concrete from being drawn in during manufacture, and when lifting, remove the finishing material 520 and use the lifting groove 510 to lift. can

The finishing material 520 may be made of various materials such as rubber and synthetic resin, and has a shape capable of filling the lifting groove 510 .

7 is a cross-sectional view showing a fixed embodiment of the small-diameter steel pipe of the present invention.

Since the small-diameter steel pipe 30 of the present invention is formed with a hollow 310, it can be used to fix the end of the small-diameter steel pipe 30. To this end, as shown in FIG. 7a, the concrete pile body At the longitudinal end of (10), a connection plate 40 through which a plurality of fasteners 41 are through, respectively, is threaded on the inner circumferential surface of the end section of the steel pipe pile 30, and a bolt threaded on the outer circumferential surface. The mold fastening member 46 may be screwed to the steel pipe file 30 through the fastener 41.

In addition, as shown in FIG. 7B, the outer circumferential surface of the end section of the steel pipe pile 30 is threaded, and the bolt-type fastening member 46 threaded on the inner circumferential surface is attached to the steel pipe file 30 through the fastener 41. It can also be screwed together.

In all of the above-described embodiments, the small-diameter steel pipe 30 is configured inside the concrete pile body 10 in the section L from the upper end to the lower portion of the concrete pile body 10 to a certain distance, but in this way, the composite pile In addition to the upper part of (1), the small-diameter steel pipe 30 is configured at the tip of the composite pile 1 so that it can have high resistance to the lower support ground, so that a high vertical bearing capacity increase effect can be expected.

The composite pile using the small-diameter steel pipe of the present invention as described above is constructed by embedding the small-diameter steel pipe inside the concrete in the upper section of the pile where the horizontal force and moment act when the pile is constructed in the ground, resulting in the arching effect of the small-diameter steel pipe With high bending resistance, it can effectively respond to the upper horizontal force and bending moment.

In addition, it is easy to manufacture because it can be manufactured in the same way as the existing PHC manufacturing method, and cost can be reduced because there is no joint to connect with a separate connecting member, etc. It has a very useful effect in that it is free to adjust the length and can respond to the change of the support layer without the need for a separate standard.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and variations without departing from the technical spirit of the present invention with reference to the presented embodiments. will be. The present invention is not limited by these variations and modifications, but is limited only by the claims appended below.

1: Composite pile using small diameter steel pipe
10: concrete pile body
110: hollow
20: rebar net
210: steel bar
220: rebar
30: small diameter steel pipe
310: hollow
50: shear reinforcement plate

Claims (11)

A concrete pile body 10 in which a hollow 110 is formed in the vertical direction at the central portion;
A reinforcing bar network 20 composed of a plurality of steel rods 210 configured in the vertical direction and a strip reinforcing bar 220 connecting the plurality of steel rods 210 and configured inside the concrete pile body 10;
A hollow 310 is formed through the central portion, and a plurality of small-diameter steel pipes 30 configured inside the concrete pile body 10 in a section L from the upper end to the lower portion of the concrete pile body 10 to a certain distance. ); Composite pile using a small-diameter steel pipe, characterized in that comprising a. The method of claim 1,
The small-diameter steel pipe 30 is a composite pile using a small-diameter steel pipe, characterized in that it is configured to be fixed to the outside of the steel bar 210 of the reinforcing bar network 20, respectively. The method of claim 1,
The small-diameter steel pipe 30 is a composite pile using a small-diameter steel pipe, characterized in that it is configured by being fixed to the inside of the steel bar 210 of the reinforcing bar network 20, respectively. The method of claim 1,
The small-diameter steel pipe 30 is a small-diameter steel pipe, characterized in that it is configured to replace the steel bar 210 of the reinforcing bar network 20 in the section (L) from the upper end of the concrete pile body 10 to the lower part by a certain distance. Composite piles used. The method of claim 4,
The small-diameter steel pipe 30 is a small-diameter steel pipe, characterized in that the steel bar 210 and the small-diameter steel pipe 30 are alternately configured in the section (L) from the upper end of the concrete pile body 10 to the lower part at a certain distance. Composite piles used. The method of claim 1,
The small diameter steel pipe 30 is characterized in that the section from the upper end of the steel bar 210 of the reinforcing bar network 20 to the lower part of the small diameter steel pipe 30 is inserted into the hollow 310 of the small diameter steel pipe 30 Composite piles using The method of claim 1,
A composite pile using a small diameter steel pipe, characterized in that one or more plate-shaped shear reinforcing plates 50 are configured on the outside of the reinforcing bar network 20. The method of claim 1,
The shear reinforcing plate 50 is a composite pile using a small diameter steel pipe, characterized in that configured to spirally wrap the outer surface of the reinforcing bar network 20. According to claim 7 or claim 8,
At the outer end of the shear reinforcing plate 50, a lifting groove 510 is formed in the center, and the finishing material 520 is inserted into the lifting groove 510, and the outer end of the finishing material 520 is exposed to the concrete pile body 10. A composite pile using a small-diameter steel pipe, characterized in that it is embedded and configured as much as possible. The method of claim 1,
At the longitudinal end of the concrete pile body 10, a connection plate 40 through which a plurality of fasteners 41 are respectively formed,
The inner circumferential surface of the end section of the steel pipe pile 30 is threaded,
A composite pile using a small-diameter steel pipe, characterized in that the bolt-type fastening member 46 threaded on the outer circumferential surface is screwed to the steel pipe pile 30 through the fastener 41. The method of claim 1,
At the longitudinal end of the concrete pile body 10, a connection plate 40 through which a plurality of fasteners 41 are respectively formed,
The outer circumferential surface of the end section of the steel pipe pile 30 is threaded,
A composite pile using a small-diameter steel pipe, characterized in that the bolt-type fastening member 46 threaded on the inner circumferential surface is screwed to the steel pipe pile 30 through the fastener 41.

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