KR100437261B1 - steel pipe pile head reinforcement structure - Google Patents

Abstract

The present invention is to solve the problem of the field welding in the welding method and the filling method of the prior art to improve the assemblability and quality of the coupling reinforcing structure of the steel pipe pile, and also to improve the weak structure against the initial tensile force To provide a reinforcing structure of the head of the steel pipe pile to support, the supporting plate is inserted from the top of the steel pipe pile to support the concrete filling and at the same time connected to the bottom of the reinforcing steel reinforcement through the connection ring installed on the top, A coupling port consisting of a coupling ring and a support ring that is bolted and supported on an upper portion of the steel pipe pile to support the supporting plate by connecting a plurality of rods vertically installed on the supporting plate, and bolted around an inner circumference of the steel pipe pile to be connected to the steel pipe pile. Steel pipe pile consisting of multiple support blocks to counter the initial tensile and compressive forces of filled concrete In the head unit structure reinforced by dividing equally the locking ring and the support ring constituting the coupler by one or more characterized in that at least one so as to correspond to the dimensional tolerances of the steel pipe pile.

Description

Steel pipe pile head reinforcement structure}

The present invention relates to a steel pipe pile used as a foundation of civil engineering or building structures, and more particularly, to a head reinforcing structure of a steel pipe pile that couples the head of the steel pipe pile with the foundation concrete.

Conventional road bridge standard specifications include a welding method for welding reinforcing steel bars and a filling method for filling concrete inside the steel pipe. However, the welding method has always raised quality problems due to problems of field welding. In the case of also had a problem in the field welding to install the non-slip jaw inside the narrow steel pipe had a lot of difficulties in the field application.

Therefore, the present invention solves the problem of the field welding in the welding method and the filling method of the prior art as described above to improve the assemblability and quality of the reinforcing structure of the coupler reinforcing steel pipe pile, and also to provide a weak structure against the initial tensile force Its purpose is to provide a head reinforcement structure for steel pipe piles that can be improved.

The present invention to achieve the above object,

The bearing plate is inserted from the upper part of the steel pipe pile to support the filled concrete, and at the same time, the support plate is connected to and supported by the lower end of the reinforcing bar through the connecting ring installed at the upper part thereof, and a plurality of rods vertically installed on the support plate are connected to each other. A coupler consisting of a coupling ring and a support ring bolted to the upper portion of the steel pipe pile to support the support plate, and a plurality of bolts fastened around the inside of the steel pipe pile to counter the initial tensile and compressive force of the concrete filled in the steel pipe pile In the head reinforcement structure of the steel pipe pile consisting of a support block,

The coupling ring and the support ring constituting the coupler is divided into at least one or more, characterized in that to correspond to the dimensional tolerance of the steel pipe pile.

In addition, the present invention,

Support plate inserted and installed from the upper part of the steel pipe pile to support the filled concrete and at the same time connected to and supported by the lower end of the reinforcing bar through the connecting ring installed on the upper part, and vertically installed on the support plate and the upper part of the steel pipe pile Coupled to the upper periphery of the coupling sphere consisting of a rod for supporting the support plate, and divided into a plurality of forms around the inner circumference of the steel pipe pile bolt installation step by step against the initial tensile and compressive force of concrete filled in the steel pipe pile It is characterized by consisting of the bracing and the bracing block.

In addition, the present invention,

A coupling plate comprising a support plate inserted from an upper portion of the steel pipe pile to support the filled concrete, a rod installed vertically on the support plate and bent at an upper portion thereof to be hooked on the upper periphery of the steel pipe pile to support the support plate; Initial reinforcement of concrete reinforced in steel pipe piles by bolts installed step by step in a plurality of forms divided into inner circumferences of the steel pipe piles by bending the lower ends through a plurality of holes formed in the periphery of the steel pipe piles. And a bracing and bracing block configured to counteract the compression force.

In addition, the present invention,

The support plate inserted from the upper part of the steel pipe pile to support the filled concrete, and at the same time, the support plate connected to and supported by the lower end of the reinforcing steel through the connection ring installed on the upper part, and the elastic plate installed at the lower part of the support plate so that the support plate is fixed in the steel pipe pile. Ring and a plurality of forms divided into the inner circumference of the steel pipe piles is characterized in that it consists of braces and brace blocks to be installed in step by bolt fastening to counteract the initial tensile and compressive forces of the concrete filled in the steel pipe piles.

In addition, the present invention,

The bottom plate is bent through a plurality of holes formed in the bottom of the support plate and the support plate is inserted from the top of the steel pipe pile to support the filled concrete and the support plate is fixed to the steel pipe pile and the periphery formed around the steel pipe pile It consists of a reinforcing steel that is directly installed, and a brace and a support block that is installed in a plurality of forms divided around the inner circumference of the steel pipe pile so as to counteract the initial tensile and compressive forces of the concrete filled in the steel pipe pile. It features.

In another aspect, the present invention is characterized in that it further added to the outer brace having an inner diameter inserted into the outer diameter of the corresponding position of the brace ring.

And the brace block is characterized in that the cross section is formed to have a locking jaw in the L-shape.

1 is an exploded perspective view of one embodiment of the steel pipe pile head reinforcement structure of the present invention.

2 is a cross-sectional view of FIG.

Figure 3 is an exploded perspective view of two embodiments of the steel pipe pile head reinforcement structure of the present invention.

4 is a cross-sectional view of the combination of FIG.

5A and 5B are perspective views of a modification of the bracing shown in FIG. 3.

Figure 6a, 6b is a perspective view of the combination of three embodiments of the steel pipe pile head reinforcement structure of the present invention.

Figure 7 is a perspective view of the four embodiments of the steel pipe pile head reinforcement structure of the present invention.

8 is a perspective view of the five embodiments of the steel pipe pile head reinforcement structure of the present invention.

Figure 9a is an exemplary cross-sectional view of laying the external support in the present invention.

Figure 9b is a perspective view of another example of the brace block of the present invention.

<Explanation of symbols for the main parts of the drawings>

10: steel pipe pile 20: coupling sphere

22: support plate 24, 40: rod

26: fastening ring 28: support ring

30: Bracing block 32: Clip for fixing the rebar

34: Bracing 36: Elastic Ring

100: rebar

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

1 is an exploded perspective view of an embodiment of a steel pipe pile head reinforcement structure of the present invention, Figure 2 is a cross-sectional view of the combination of FIG.

1 and 2, the reference numeral 10 is a steel pipe pile, driven as a foundation of a civil engineering or building structure, the upper part is cut by a cutting machine to maintain the top level of the steel pipe pile 10, this steel pipe In the circumference of the pile 10, a plurality of first fastening holes 12 and second fastening holes 14 are drilled through a conventional hydraulic perforator.

Reference numeral 20 shows a coupler installed in the head which is the upper portion of the steel pipe pile (10).

The coupler 20 is composed of a support plate 22 and the rod 24 and the integral fastening ring 26 and the support ring 28.

The support plate 22 is inserted from the top of the steel pipe pile 10 to support the concrete filled in the steel pipe pile 10, the ring-shaped connection ring 22a is installed in the upper center of the support plate 22 The reinforcing bar 100, which is bent at the lower end, is connected to the connection ring 22a through holes drilled at regular intervals.

A plurality of rods 24 are vertically installed at predetermined intervals on the support plate 22, and a lower end of the rod 24 is installed on the support plate 22 by welding or nut fastening.

The upper part of the rod 24 is connected by welding to the fastening ring 26 fastened to the bolt 25 through the first fastening hole 12 formed in the upper portion of the steel pipe pile 10, the fastening ring 26 A support ring 28 supported around the upper end of the steel pipe pile 10 is integrally installed to support the support plate 22, and a bolt through the second fastening hole 14 is formed in the inner circumference of the steel pipe pile 10. (29) A plurality of support blocks 30 are installed to counteract the initial tensile and compressive forces of the concrete fastened to the steel pipe pile (10).

The fastening ring 26 and the support ring 28 constituting the coupler 20 is divided into four parts. Thereby, it can respond flexibly to the dimension tolerance of the steel pipe pile 10, and can exhibit a target intensity by eliminating an assembly gap.

That is, the inner circumference of the driven steel pipe pile 10 may be deformed so that the inner diameter may be locally or entirely reduced. Since the fastening ring 26 and the support ring 28 are not divided into a closed single ring shape and an assembly gap is secured therebetween, the fastening ring 26 and the support ring 28 can flexibly respond to the dimensional deformation of the steel pipe pile 10, and the divided fastening. When the ring 26 is fastened to the steel pipe pile 10 by bolts, the fastening ring 26 is individually fastened so that the target strength can be obtained by eliminating gaps when tightening.

In the drawing, reference numeral 32 is a clip for fixing the reinforcing bar, which is installed through the upper support ring 28 of the steel pipe pile 10 to maintain the vertical posture of the reinforcing bar 100 installed through the connection ring 22a. It is used as an auxiliary.

Meanwhile, the support block 30 is filled into the steel pipe pile 10 by being forced through the second fastening hole 14 formed in the steel pipe pile 10 through the serration bolt (not shown) in which the serration is formed. Greater resistance to the initial tensile and compressive forces of concrete.

According to the embodiment of the present invention configured as described above, after completing the installation work of the coupling hole 20, the brace 30 and the reinforcing bar 100 on the upper portion of the steel pipe pile (10) the inside of the steel pipe pile (10) The work is completed by filling the concrete with filling.

Figure 3 is an exploded perspective view of a second embodiment of the steel pipe pile head reinforcement structure of the present invention, Figure 4 shows a cross-sectional view of the coupling of FIG.

As shown, the support plate 22 is inserted from the top of the steel pipe pile 10 to support the concrete filling and at the same time connected to and supported by the lower end of the reinforcing bar 100 through the connection ring 22a installed on the upper support plate 22. And, the coupling sphere 20a made of a rod 40 which is installed perpendicular to the support plate 22 and the upper portion is bent to the upper periphery of the steel pipe pile 10 to support the support plate 22, and the Reinforcing bolting step by step in the form of a plurality of partitions around the inner periphery of the steel pipe pile 10 to support the initial tensile and compressive force of the concrete filled in the steel pipe pile (10) and the support block (34) and the support block (30) ).

In the above, the lower end of the rod 40 can be fastened and installed with a nut on the support plate 22 and can be installed by welding.

In addition, the support ring 34 is divided into two parts to flexibly cope with the dimensional tolerances of the steel pipe pile 10, and can also achieve the target strength by eliminating the assembly gap.

That is, when the upper circumference of the driven steel pipe pile 10 is deformed and reduced, the support ring 34 is divided into a closed ring shape, and the assembly gap is secured therebetween, so that the dimensional deformation of the steel pipe pile 10 is reduced. It can be flexibly responded, and when the divided buttress ring 34 is fastened to the steel pipe pile 10 by bolts, the buttress ring 34 is individually fastened to obtain a target strength by eliminating gaps when tightening. .

Meanwhile, the support ring 34 and the support block 30 have the first fastening hole 12 and the second fastening hole 14 formed in the steel pipe pile 10 through serration bolts (not shown) having serrations formed therein. By being pushed through the steel pipe pile 10 can be more largely opposed to the initial tensile and compressive forces of the concrete stuffed.

5a and 5b show a modified example of the brace ring 34 of the present invention. The brace ring 34 shown in FIG. 5a is provided by embossing 34a on the ring to reinforce the strength of the ring. The bracing ring 34 shown in 5b is formed with a plurality of locking jaws 34b so that the rod 40 is supported in the middle of the ring.

Figure 6a, 6b shows a perspective view of the combination of three embodiments of the steel pipe pile head reinforcement structure of the present invention.

As shown, the support plate 22 is inserted from the upper portion of the steel pipe pile 10 to support the filled concrete, and is installed perpendicular to the support plate 22 and the upper portion is bent to the upper portion of the steel pipe pile 10 Reinforcing bars (100b) formed of a rod (40) supporting the support plate (22) supported by the circumference and a plurality of holes formed in the periphery of the steel pipe pile (10), the lower end of which is directly installed by reinforcement (100) ), And the brace ring (34) to be installed in a plurality of forms divided into the inner circumference of the steel pipe pile (10) against the initial tensile and compressive force of the concrete filled in the steel pipe pile (10) and It is composed of a bracing block (30).

In the third embodiment, the difference from the second embodiment described above is that the reinforcing bar 100 is drilled in the steel pipe pile 10 so as to form an inner side of the steel pipe pile 10 as shown in FIG. 6A or 6B. The direct installation is different from the side, such an embodiment can simplify the configuration of the coupler (20b) and simplify the assembly of the reinforcing bars (100).

Figure 7 shows a perspective view of the combination of four embodiments of the steel pipe pile head reinforcement structure of the present invention.

As shown, the support plate 22 is inserted from the top of the steel pipe pile 10 to support the concrete filling and at the same time connected to and supported by the lower end of the reinforcing bar 100 through the connection ring 22a installed on the upper support plate 22. And a plurality of forms of elastic rings 36 installed at a lower portion of the support plate 22 so that the support plate 22 is fixed in the steel pipe pile 10, and divided into a plurality of forms around the inside of the steel pipe pile 10. The fastening is installed consists of a support block 34 and the support block 30 so as to counteract the initial tensile and compressive force of the concrete filled in the steel pipe pile (10).

Another difference of the above four embodiments is that the support plate 22 is provided with an elastic ring 36 to maintain a fixed state without falling out of the steel pipe pile (10). As a result, the rod supporting the support plate 22 is omitted, thereby simplifying the overall configuration, and having a clearance therebetween by cutting the end of the elastic ring 36, thereby supporting the support plate 22 while the elastic ring 36 exhibits elasticity. ) Will be supported.

Figure 8 shows a perspective view of the combination of five embodiments of the steel pipe pile head reinforcement structure of the present invention.

As shown, the support plate 22 is inserted from the top of the steel pipe pile 10 to support the filled concrete and the support plate 22 is installed in the lower portion of the support plate 22 to be fixed in the steel pipe pile (10) The elastic ring 36, the reinforcement reinforcement 100 is bent directly installed on the inner or outer circumference of the steel pipe pile 10, and a plurality of forms divided into the inner circumference of the steel pipe pile 10 It is composed of the brace ring 34 and the brace block 30 to counteract the initial tensile and compressive force of the concrete filled in the steel pipe pile by installing the bolt fastening step by step, the support plate 22 is replaced by plywood instead of steel plate Can reduce the cost.

The bracing 34 is preferably divided into two to accommodate the coupling tolerances.

On the other hand, in all of the embodiments having the buttressing 34 in the above embodiments may be configured by further adding an external buttressing 34 having an inner diameter that is inserted into the outer diameter of the corresponding position steel pipe of the buttressing. This may have a stronger clamping force on the steel pipe with the support ring 34, as well as the action of the locking stress when hitting the bracing concrete on the top of the steel pipe head.

On the other hand, the bracing block also has a locking jaw (30A) in the cross-section of the "L" shaped to be able to make the coupling force of the concrete and the steel pipe head filled inside the head of the steel pipe better.

As described above, in the steel pipe pile head reinforcing structure according to the present invention, various embodiments of the coupler simplify the coupler, thereby reducing the cost, and assembling by dividing the fastening ring or the brace according to the dimensional deformation of the steel pipe pile. It has the effect of smoothing out the assembly gap during fastening and at the same time, exerting the target strength, and improving the strength of the filled concrete, and simplifying the assembly process by eliminating on-site welding. Has

Claims (8)

The bearing plate is inserted from the upper part of the steel pipe pile to support the filled concrete, and at the same time, the support plate is connected to and supported by the lower end of the reinforcing bar through the connecting ring installed at the upper part thereof, and a plurality of rods vertically installed on the support plate are connected to each other. A coupler consisting of a coupling ring and a support ring bolted to the upper portion of the steel pipe pile to support the support plate, and a plurality of bolts fastened around the inside of the steel pipe pile to counter the initial tensile and compressive force of the concrete filled in the steel pipe pile In the head reinforcement structure of the steel pipe pile consisting of a support block, The reinforcing structure of the head of the steel pipe pile, characterized in that divided into at least one fastening ring and the support ring constituting the coupling sphere to correspond to the dimensional tolerance of the steel pipe pile. Support plate inserted and installed from the upper part of the steel pipe pile to support the filled concrete and at the same time connected to and supported by the lower end of the reinforcing bar through the connecting ring installed on the upper part, and vertically installed on the support plate and the upper part of the steel pipe pile Coupled to the upper periphery of the coupling sphere consisting of a rod for supporting the support plate, and divided into a plurality of forms around the inner circumference of the steel pipe pile bolt installation step by step against the initial tensile and compressive force of concrete filled in the steel pipe pile Reinforcement structure of the head of the steel pipe pile, characterized in that consisting of a bracing and a bracing block. A coupling plate comprising a support plate inserted from an upper portion of the steel pipe pile to support the filled concrete, a rod installed vertically on the support plate and bent at an upper portion thereof to be hooked on the upper periphery of the steel pipe pile to support the support plate; Initial reinforcement of concrete reinforced in steel pipe piles by bolts installed step by step in a plurality of forms divided into inner circumferences of the steel pipe piles by bending the lower ends through a plurality of holes formed in the periphery of the steel pipe piles. Reinforcement structure of the head of the steel pipe piles, characterized in that consisting of a bracing and a bracing block to combat the compression force. The support plate inserted from the upper part of the steel pipe pile to support the filled concrete, and at the same time, the support plate connected to and supported by the lower end of the reinforcing steel through the connection ring installed on the upper part, and the elastic plate installed at the lower part of the support plate so that the support plate is fixed in the steel pipe pile. Steel pipe, characterized in that consisting of a brace and a block block to be opposed to the initial tensile and compressive force of the concrete, which is installed in a plurality of forms divided into a ring, the inner circumference of the steel pipe pile stepped into the steel pipe pile Reinforcement structure of pile head. The bottom plate is bent through a plurality of holes formed in the bottom of the support plate and the support plate is inserted from the top of the steel pipe pile to support the filled concrete and the support plate is fixed to the steel pipe pile and the periphery formed around the steel pipe pile It consists of a reinforcing steel that is directly installed, and a brace and a support block that is installed in a plurality of forms divided around the inner circumference of the steel pipe pile so as to counteract the initial tensile and compressive forces of the concrete filled in the steel pipe pile. Reinforcing structure of the head portion of the steel pipe pile. The head reinforcement structure according to any one of claims 2 to 5, further comprising an external support ring having an internal diameter inserted into the corresponding position of the support ring of the steel pipe. The head reinforcement structure according to any one of claims 2 to 5, wherein the support block has a latching jaw (30A) having a cross section having an "L" shape. 7. The reinforcing structure of a head of a steel pipe pile according to claim 6, wherein the bracing block has a latching jaw (30A) having a cross section having an "L" shape.