KR100440671B1 - Couplers for Steel Pipe Piles - Google Patents

Abstract

The present invention relates to a steel pipe pile coupler for coupling the head of the steel pipe pile and the concrete foundation when using the steel pipe pile as a foundation of civil engineering or building structures. Steel pipe pile coupling hole 1 of the present invention, the cover plate 2 consisting of a vertical portion 20, the locking step 30, the bottom portion 40 and spaced apart from the lower portion of the cover plate (2) The bottom plate 50, the support bar 60 is installed between the cover plate 50 and the bottom plate 50, the reinforcing bar 70 is installed on the cover plate 50 and the steel pipe pile 10 It is composed of concrete 80 filled inside, and other accessories such as bolts (B) and nuts (N). Steel pipe pile coupler (1) according to the present invention is located in the connection of the steel pipe pile coupler and reinforcing reinforcement 70 inside the steel pipe pile, reinforced by concrete 80, weak in the connection portion of the conventional steel pipe pile coupler In addition, by forming a reinforced concrete column in the inner space of the bottom plate 50 and the bottom portion 40, it is possible to use the tensile strength of the support reinforcement 60 and the bolt's strength. Therefore, the cross-sectional loss of the steel pipe pile due to the bolt drilling is reduced, so that the strength of the steel pipe pile is improved, and the bolt drilling work can be reduced, thereby improving the workability.

Description

Couplers for Steel Pipe Piles}

The present invention relates to a steel pipe pile used as a foundation of civil engineering or building structures, and more particularly, to a steel pipe pile coupler for coupling the head of the steel pipe pile and the concrete foundation.

In Korea, the standard specification for road bridges (1996) stipulates the following two methods for joining the steel pipe pile head and concrete foundation.

That is, the method of supporting the external force acting on the head of the steel pipe pile by the buried portion of the head of the steel pipe pile more than the diameter of the steel pipe pile in the concrete foundation (method A), and the head of the steel pipe pile in the concrete foundation 10 cm There is a method of supporting the external force acting on the head of the steel pipe pile by reinforcing reinforcement steel with only enough length and insufficient strength.

The method A has a disadvantage in that the reinforcement is more complicated than the method B and the reinforcing reinforcement is cut due to the interference of the steel pipe pile buried in the concrete foundation. Therefore, in general, the B method is mainly used.

However, the method B also has a problem as set forth in the Korean Patent Application No. 2000-0041671 filed by the present applicant (name of the invention: the structure of the steel pipe pile head and concrete foundation using a steel pipe pile coupler).

Hereinafter, the contents of the patent application No. 2000-0041671 invented by the present applicant in order to solve the problems of the method A and method B will be described with reference to FIGS. 1 and 2. On the other hand, the reference numerals attached to each component below means the numbers described in the specification and drawings of the patent application No. 2000-0041671.

First, in the coupling structure of the steel pipe pile head and the concrete foundation shown in Figure 1, the steel pipe pile coupling hole 20, a plurality of bolt holes 25 for coupling with the steel pipe pile is formed at a predetermined interval at the top A circular vertical portion 22 having a non-slip jaw 27 protruding therein in a horizontal direction, a locking jaw 30 formed integrally with the upper portion of the vertical portion 22, and a lower portion of the vertical portion 22. And a bottom portion 24 which is integrally formed so as to fit into and has a screw hole 23 at a predetermined interval radially.

The coupling structure of Figure 1 is inserted into the steel pipe pile inside the steel pipe pile with a non-slip jaw (27) produced in the factory, then filled with concrete, the concrete and the steel pipe pile coupling (20) By making it possible to properly use the adhesive force exerted at the contact portion, there is an advantage that the quality is excellent.

However, since the steel pipe pile coupler 20 must support the tensile force (axial tensile load or flexural tensile load) only with the bolt connecting the steel pipe pile and the steel pipe pile coupler 20, when a large tensile load is applied, The bolt must be installed, which causes a loss of cross section of the steel pipe pile, resulting in a reduction in the strength of the steel pipe pile body.

Meanwhile, the coupling structure of the steel pipe pile head and the concrete foundation shown in FIG. 2 is as follows.

Steel pipe pile coupling 30 is a horizontal frame 31 formed with a plurality of screw holes 33 penetrating downward in the form of a circular frame, and bolts installed vertically downward by retreating toward the inside or more than the thickness of the steel pipe pile in the lower portion of the horizontal portion It consists of a vertical portion 32 having a hole 35. The steel pipe pile coupling hole 30 is inserted into the inside of the steel pipe pile (2) formed with a bolt hole so as to hang over the upper portion of the steel pipe pile, the steel pipe pile (2) and the steel pipe pile coupling hole (30) bolts (36) After tightening, the reinforcing bar (3) is installed, the reinforcing bar (4) of the concrete foundation is placed, and then the concrete foundation (1) is filled. When the soil is not filled with a considerable depth inside the steel pipe pile, the bottom portion 39 supported by the rebar 37 coupled to the screw hole of the horizontal portion 31 is installed.

According to the coupling structure of Figure 2, it is possible to reduce the number of bolts 36 to be connected with the steel pipe pile by the tensile strength of the reinforcing bar (37) can reduce the cross-sectional loss due to the bolt drilling of the steel pipe pile to improve the structural performance It is effective.

However, the head of the steel pipe pile is a portion where the cross-sectional area is suddenly changed to a portion that is combined with the foundation concrete, the load is concentrated, the steel pipe pile coupling hole 30 is a horizontal portion 31 is connected to the reinforcement steel (3) steel pipe pile Since it is located on the head of the horizontal portion 31 and the connection to the load will be concentrated. Therefore, it is necessary to reduce the stress concentration acting on the connecting portion of the horizontal portion 31 and the reinforcing bar 3 to increase the structural strength of the steel pipe pile coupling portion.

The present invention economically solves the above-mentioned conventional problems, that is, the horizontal portion of the conventional steel pipe pile coupling is located on the head of the steel pipe pile where the load is concentrated, and the connecting portion of the horizontal portion and the reinforcing steel becomes structurally weak. To reduce the amount of bolts fastened to the steel pipe piles, the purpose is to provide steel pipe pile fittings with excellent construction and strength.

Another object of the present invention, in order to bolt the steel pipe pile coupling hole and the steel pipe pile, to solve the hassle of puncturing the bolt hole exactly on the steel pipe pile in the field, and can utilize the strength of the body of the steel pipe pile 100% To provide a pile coupling.

1 is an installation state showing an example of a conventional steel pipe pile coupling.

Figure 2 is an installation state showing another example of a conventional steel pipe pile coupling.

Figure 3 is an exploded perspective view showing an embodiment of the steel pipe pile coupler according to the present invention.

Figure 4a is a partially cut perspective view of the steel pipe pile head coupler of Figure 3 assembled.

4B is a front sectional view of FIG. 4A.

Figure 5a is a partially cutaway perspective view showing another embodiment of the steel pipe pile coupling according to the present invention.

5B is a front sectional view of FIG. 5A;

Figure 6a is a partially cutaway perspective view showing another embodiment of a steel pipe pile coupler according to the present invention.

6B is a front sectional view of FIG. 6A;

Figure 7a is a partially cut perspective view showing another embodiment of the steel pipe pile coupling according to the present invention.

FIG. 7B is a front sectional view of FIG. 6A; FIG.

<Explanation of symbols for main parts of drawing>

1: steel pipe pile coupler 2: cover plate

10: steel pipe pile 20: vertical part

22: support plate 23: non-slip jaw

24: projection 30: jam jaw

31: slope 40: bottom

50: bottom plate 60: support steel

70: rebar 80: concrete

Steel pipe pile coupler of the present invention is composed of a cover plate and a bottom plate consisting of a vertical portion, a locking step, a bottom portion, support reinforcement, reinforcement steel, concrete, and other miscellaneous accessories.

Steel pipe pile coupling of the present invention is brought into the site in the disassembled state. After connecting the cover plate and the bottom plate using a support reinforcement in the field, and inserting and mounting the cover plate connected to the bottom plate inside the steel pipe pile, the steel pipe pile and the cover plate is connected by bolts or welding. Then, the reinforcing bar is installed on the bottom or the bottom plate, and the steel pipe pile coupling sphere of the present invention is completed by filling concrete in the inner space of the bottom plate and the cover plate.

Hereinafter, the configuration and action of the steel pipe pile coupler of the present invention will be described in detail.

The vertical portion is tubular, the outer diameter of which is smaller than the inner diameter of the steel pipe pile, the upper side is formed with a plurality of bolt holes at predetermined intervals for coupling with the steel pipe pile. In addition, a plurality of bolt holes are formed on the side of the steel pipe pile. The vertical portion is inserted into the inside of the steel pipe pile, and the holes are matched to be coupled by bolts so that the tensile load acting on the steel pipe pile coupler is transferred to the steel pipe pile through the bolts.

As another method of transferring the load acting on the steel pipe pile coupling to the steel pipe pile, the inclined surface and the steel pipe pile of the locking jaw portion which will be described later in contact with the head of the steel pipe pile can be connected by welding.

In the case of connecting the steel pipe pile coupling hole and the steel pipe pile by welding, in order to connect the steel pipe pile coupling hole and the steel pipe pile with the bolt, it is possible to solve the trouble of having to drill the bolt hole exactly in the steel pipe pile, and There is no cross-sectional loss, so the strength of the main body of the steel pipe pile can be utilized to 100%.

The upper end of the vertical portion is integrally formed with a locking projection protruding outward more than the thickness of the steel pipe pile. The locking jaw serves to hold the cover plate so as not to fall when the cover plate is inserted into the steel pipe pile, and to transfer the compressive force acting on the cover plate to the steel pipe pile.

The bottom part has a diameter smaller than the inner diameter of the steel pipe pile and is integrally formed at the lower part of the vertical part, and a hole is formed in the center thereof, and reinforcing bar assembling holes and supporting steel assembling holes are formed at radial intervals.

The bottom plate is located in the lower portion of the cover plate, the support reinforcing holes are formed at a predetermined radial interval, and is made of a circular plate smaller than the inner diameter of the steel pipe pile to close the inside of the steel pipe pile. The bottom plate is connected to the cover plate and the supporting steel to be described later to prevent the concrete filled into the steel pipe piles to escape.

In order to smoothly insert the bottom plate into the steel pipe pile, it is preferable to make the diameter of the bottom plate smaller than the inner diameter of the steel pipe pile. In this case, the gap between the bottom plate and the steel pipe pile is sealed by using silicon or rubber peking, and the like. At the same time to prevent the concrete filled in the piles to escape and at the same time to block the groundwater flowing into the inside of the steel pipe pile from the lower portion of the steel pipe pile.

The support reinforcing bar is formed with screws at both ends. The threaded portion formed on the upper end of the support reinforcing bar is coupled to the plurality of supporting steel assembly holes formed on the bottom portion, the threaded portion formed on the lower end of the supporting steel is inserted into the hole of the bottom plate, and the nut is fastened to the lower threaded portion of the supporting steel.

The support reinforcing rod serves to support the tensile load together with the strength of the bolt connected to the steel pipe pile, and to support the weight of the concrete filled in the inner space of the steel pipe pile, and to support the compressive load transmitted through the hole in the bottom It plays a role.

Therefore, unlike the conventional steel pipe pile coupler, it is possible to reduce the number of bolts to be connected to the steel pipe pile as much as the tensile strength of the support reinforcing bars, and to reduce the cross-sectional loss of the steel pipe pile by bolt boring to improve the tensile strength of the steel pipe pile.

The rebar is formed with a screw at one end is screwed to the reinforcing bar assembly hole of the bottom portion, or is coupled to the nut. The reinforcing bar serves to transfer the load acting on the foundation concrete to the steel pipe pile coupling.

On the other hand, in order to solve the difficulty of processing the reinforcing rod assembly hole of the threaded portion and the bottom of the reinforcing bar, the reinforcing steel bar is omitted in the bottom, inserting the unreinforced reinforcing steel into the hole formed in the center of the bottom plate bottom plate Can be installed to

The interior space of the bottom portion and the vertical portion is filled with concrete. The concrete is in contact with the vertical portion of the cover plate to exert the adhesive force. In order to increase the size of the adhesive force may be provided with a projection or a non-slip jaw inside the vertical portion in contact with the concrete.

The protrusion or the non-slip jaw protrudes inward to the inside of the vertical part to prevent the concrete from being separated from the vertical part by drying shrinkage, and serves to reduce the tensile load and the compressive load transmitted to the bottom part.

Therefore, unlike the conventional steel pipe pile coupler, the tensile load and the compressive load transmitted to the bottom are reduced, thereby increasing the safety of the bottom. In addition, conventionally, the connection portion between the steel pipe pile coupler and the reinforcing bar is located in the head of the steel pipe pile where the load is concentrated, whereas the steel pipe pile coupler is connected to the steel pipe pile in the steel pipe pile. Because of the reinforcement, the concentration of the load is alleviated and the structural performance of the connection is improved accordingly.

A plurality of support plates are installed on the inner side where the vertical portion and the bottom portion are in contact, so that the bottom portion is not bent due to the compressive load and the tensile load acting on the steel pipe pile coupling hole, and concrete is not tightly filled in the lower space of the bottom portion. Even if the floor is not bent.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the steel pipe pile coupler according to the present invention.

Figure 3 is an exploded perspective view of the steel pipe pile coupler according to the first embodiment of the present invention, Figure 4a is a partial cutaway perspective view of the steel pipe pile coupler of Figure 3, Figure 4b is a front sectional view of Figure 4a.

3 to 4B, the steel pipe pile coupling hole 1 according to the present embodiment includes a cover plate 2 and a bottom plate 50 spaced apart from the lower portion of the cover plate 2. , Support reinforcement 60 is installed between the cover plate 50 and the bottom plate 50, the reinforcing bar 70 is installed on the cover plate 50, and the concrete filled in the steel pipe pile 10 ( 80), and other accessories, such as a bolt B and a nut N, are comprised.

The cover plate 2 includes a vertical portion 20, a locking jaw 30, and a bottom portion 40.

The vertical portion 20 is formed in a tubular outer diameter is smaller than the inner diameter of the steel pipe pile 10, the plurality of bolt holes 21 for coupling to the steel pipe pile 10 formed at a predetermined interval on the side of the upper portion It is. On the other hand, a plurality of bolt holes 11 corresponding to the bolt holes 21 of the vertical portion 20 are formed on the side surface of the steel pipe pile 10. By inserting the vertical portion 20 into the inside of the steel pipe pile 10, and fastening the bolt (B) to the bolt holes (11, 21), the steel pipe pile coupling hole (1) and the steel pipe pile (2) Are mutually coupled. The tensile load acting on the steel pipe pile coupler 1 is transmitted to the steel pipe pile 2 through the bolt (B).

The locking jaw 30 is formed to protrude outward with a width approximately equal to the thickness of the steel pipe pile 10 at the upper end of the vertical portion 20. The locking jaw 30 serves to hold the vertical portion 20 so as not to fall when the vertical portion 20 is inserted into the steel pipe pile, and compresses the compressive force acting on the cover plate 2 to the steel pipe pile ( 10) to deliver.

The bottom portion 40 is integrally formed in the lower portion of the vertical portion 20 to a diameter smaller than the inner diameter of the steel pipe pile, the hole 41 is formed in the center, a plurality of reinforcing steel rebar assembly at a predetermined interval radially (42) and the supporting rebar assembling hole (43) are formed.

The bottom plate 50 is located in the lower portion of the cover plate 2, a plurality of support reinforcing holes 51 are formed at a predetermined interval radially, the steel pipe pile (10) to close the inside of the steel pipe pile (10) It has a circular plate shape smaller than the inner diameter of 10). The bottom plate 5 is connected to the cover plate 2 by the support reinforcement 60 to form a predetermined space therebetween, and the concrete 80 filled in the predetermined space is released from the inside of the steel pipe pile 10. To prevent them.

In order to smoothly insert the bottom plate 50 into the steel pipe pile 10, it is preferable that the diameter of the bottom plate 50 is smaller than the inner diameter of the steel pipe pile 10, in this case, the bottom plate 50 and the steel pipe pile ( 10) By sealing the gap generated between the inner wall using silicon or rubber peking, etc., prevents the concrete 80 filled in the steel pipe pile 10 from coming out and at the same time the lower portion of the steel pipe pile 10 In the steel pipe pile 10, it is preferable to block the ground water flowing into the interior.

The support reinforcement 60 has screws 61 and 62 formed at both ends. Screw portion 61 formed on the upper end of the support reinforcement 60 is screwed to a plurality of support reinforcing bar assembly 43 formed on the bottom portion 40 of the cover plate 2, the screw portion formed on the lower end of the support reinforcement 60 62 is coupled to the nut (N) in the state inserted into the support rebar assembly hole 51 of the bottom plate (50).

As a method of joining the support rebar assembly hole 43 and the support rebar 60 of the cover plate 2, a screw 61 formed on the upper end of the support rebar 60 by processing a female screw in the support rebar assembly hole 43 and A method of screwing the female screw of the support rebar assembly hole 43, and inserting the support rebar 60, the screw 61 is processed into the support rebar assembly hole 43, and the upper and lower portions of the support rebar assembly hole 43 N) fastening method and the like can be used.

The support reinforcement 60 serves to resist the tensile load with the strength of the bolt (B) connected to the steel pipe pile 10, and supports the weight of the concrete (80) filled in the internal space of the steel pipe pile (10) And to support the compression load transmitted through the hole 41 formed in the center of the bottom portion 40 and the like.

Therefore, compared with the conventional steel pipe pile coupler, it is possible to reduce the number of bolts (B) to be connected to the steel pipe pile 10 by the tensile strength of the support reinforcement (60), the steel pipe pile 10 by the bolt drilling Since the cross-sectional loss can be reduced, the tensile strength of the steel pipe pile 10 is improved.

The reinforcing bar 70, the screw 71 is formed at one end is coupled to the reinforcing bar assembly hole 42 formed in the bottom portion 40 of the cover plate 2, or is coupled with a nut (N). The rebar 70 serves to transfer the load acting on the foundation concrete to the steel pipe pile coupling (1).

As described above, the concrete 80 is filled in the inner space between the bottom portion 40 and the vertical portion 20. The concrete 80 is in contact with the vertical portion 20 to exert the adhesive force.

On the other hand, a plurality of support plates 22 are installed on the inner side of the cover plate 2 in which the vertical portion 20 and the bottom portion 40 are in contact, and compressive load and tensile load acting on the steel pipe pile coupling hole 1. By the bottom portion 40 is not bent, even if the concrete 80 is not tightly filled in the lower space of the bottom portion 40 so that the bottom portion 40 is not bent.

Conventionally, the connection between the steel pipe pile coupler and the reinforcing bar is located on the head of the steel pipe pile where the load is concentrated, whereas the steel pipe pile coupler 1 has a connection part of the reinforcing bar 70 to the inside of the steel pipe pile. Located and reinforced with concrete 80, the concentration of the load is alleviated so that the structural performance of the connection is improved.

Figure 5a is an exploded perspective view showing a steel pipe pile coupler according to a second embodiment of the present invention, Figure 5b is a front sectional view of Figure 5a.

As shown in Figure 5a and 5b, the steel pipe pile coupling of the present embodiment, compared with the first embodiment, in order to increase the magnitude of the adhesion of the concrete 80, the vertical portion in contact with the concrete 80 It further comprises a plurality of projections 24 protruding along the inner circumference of the) and the belt-shaped non-slip jaw (23).

The protrusion 24 or the non-slip jaw 23 protrudes inward from the inside of the vertical portion 20 to prevent the concrete 80 filled therein from being separated from the vertical portion 20 by dry shrinkage. , And serves to reduce the tensile load and compression load transmitted to the bottom 40. Therefore, unlike the conventional steel pipe pile coupler, the tensile load and the compressive load transmitted to the bottom portion 40 are reduced, thereby increasing the safety of the bottom portion 40.

6A is a partially cutaway perspective view of the steel pipe pile coupling device according to the third embodiment of the present invention, and FIG. 6B is a front sectional view of FIG. 6A.

As shown in Figure 6a and 6b, the steel pipe pile coupling according to the present embodiment, compared to the first embodiment, instead of forming the reinforcing bar assembly hole 42 in the bottom portion 40, the screw is not processed Reinforcing bar 70 is inserted into the hole 41 formed in the center of the bottom portion 40 is installed so as to contact the bottom plate 50.

In this way, the reinforcing bar 70 does not need to process the threaded portion 71, and the bottom portion 40 does not need to process the reinforcing bar assembly hole 42, thereby reducing the production cost and assembly labor of the steel pipe pile coupling. Can be.

FIG. 7A is a partially cutaway perspective view of the steel pipe pile fitting according to the fourth embodiment of the present invention, and FIG. 7B is a front sectional view of FIG. 7A.

As shown in Figure 7a and 7b, compared with the first embodiment of the steel pipe pile coupling sphere, the method for transferring the load acting on the steel pipe pile coupling hole 1 to the steel pipe pile 10, That is, there is a difference in the manner of coupling the steel pipe pile coupling sphere (1) and the steel pipe pile (10).

In the present embodiment, the inclined surface 31 is formed on the portion of the locking projection 30 in contact with the head of the steel pipe pile 10, and the upper surface of the inclined surface 31 and the steel pipe pile 10 is welded to each other.

As such, when the steel pipe pile coupling hole (1) and the steel pipe pile (10) by welding, in order to connect the steel pipe pile coupling hole (1) and the steel pipe pile (10) with bolts (B) in the field 11 ) Can solve the hassle of exactly drilling the steel pipe pile, there is no cross-sectional loss due to drilling the bolt hole 11 can utilize the strength of the body of the steel pipe pile (10) to 100%.

Hereinafter, a method for installing a steel pipe pile coupling sphere according to the present invention will be described.

Steel pipe pile coupler (1) of the present invention is a cover plate 2, bottom plate 50, support reinforcing bar 60, reinforcing bar 70, bolt (B) and nut (N) Other accessories are taken in disassembled state. In this way, it is convenient to carry and use by bringing in and using each component in the disassembled state.

The screw portion 61 formed on the top of the support reinforcement 60 in the field is coupled to a plurality of support reinforcing bar assembly 43 formed on the bottom portion 40 of the cover plate 2, formed on the bottom of the support reinforcement 60 The screw portion 62 is inserted into the support rebar assembly hole 51 of the bottom plate 50, and the nut N is fastened to the lower thread portion 62 of the support rebar.

Subsequently, the cover plate 2 coupled with the bottom plate 50 is inserted into and mounted on the steel pipe pile 10 in which the bolt hole 11 is drilled in the head, and the bolt hole 21 of the cover plate 2 is mounted. ) And the bolt holes (11) of the steel pipe pile to match the bolt (B).

At this time, in the case of the steel pipe pile coupler according to the fourth embodiment described above, the cover plate (2) having the inclined surface 31 is formed in the portion of the locking jaw 30 in contact with the head of the steel pipe pile steel pipe pile (10) Inserted into the interior of the mounting, the inclined surface 31 and the steel pipe piles by welding.

Thereafter, the threaded portion 71 of the reinforcing bar 70 is screwed to the reinforcing bar assembly hole 42 of the bottom portion 40, or coupled to the nut (N).

On the other hand, as in the above-described third embodiment, to reduce the complexity of processing the screw 71 of the reinforcing bar 70 and the reinforcing bar assembly hole 42 of the bottom portion 40, the screw on the reinforcing bar 70 (71) is omitted, and the reinforcing bar assembly hole 42 is also omitted in the bottom part 40, so that the reinforcing bar 70 without screws is inserted into the hole 41 formed in the center of the bottom part 40, thereby It may be installed to be supported by the plate 50.

Finally, after the reinforcing bar 70 is installed, the interior spaces of the bottom plate 50 and the cover plate 2 are filled with concrete.

As described above, according to the steel pipe pile coupling sphere according to the present invention, unlike the conventional steel pipe pile coupling structure, the connection portion of the steel pipe pile coupling hole 1 and the reinforcing steel 70 is located inside the steel pipe pile, By reinforcing with concrete 80, it is possible to compensate for the weakness of the connection of the existing steel pipe pile coupling. In addition, by forming a reinforced concrete column in the inner space of the bottom plate 50 and the bottom portion 40, it is possible to use the tensile strength of the support reinforcement 60 and the strength of the bolt (B) together.

Therefore, the cross-sectional loss of the steel pipe pile due to the bolt drilling is improved, so that the strength of the steel pipe pile can be improved, and the bolt drilling work can be reduced, thereby improving the workability.

In addition, when connecting the steel pipe pile coupling hole (1) and the steel pipe pile (10) by welding, compared to the method of connecting by bolt, in the field to solve the trouble of having to drill the bolt hole 11 in the steel pipe pile accurately It can be, and there is no cross-sectional loss due to drilling the bolt hole 11 can utilize the strength of the body of the steel pipe pile 100%.

In addition, when the inclined surface 31 for the groove welding in advance in the factory, there is no separate groove processing operation in the field, there is an advantage that the workability is improved.

Claims (6)

Steel pipe pile 10 formed with a plurality of bolt holes 11 radially in the head 12; A tubular vertical portion 20 in which a plurality of bolt holes 21 are formed at predetermined intervals for coupling with the steel pipe pile 10; A plurality of bolts B fastened between the bolt holes 11 formed in the steel pipe pile 10 and the bolt holes 21 formed in the tubular vertical portion 20; A catching jaw 30 formed integrally with the upper portion of the vertical portion 20; The bottom portion 40 is formed integrally with the lower portion of the vertical portion 20, the hole 41 is provided at the center, and the reinforcing bar assembly hole 42 and the supporting rebar assembly hole 43 are formed at radial intervals. ); A bottom plate 50 disposed below the bottom part 40 to close the inside of the steel pipe pile 10, and having a plurality of supporting rebar assembly holes 51 formed radially at predetermined intervals; A plurality of support bars in which screws 61 and 62 are machined at both ends of the support rebar assembly hole 43 formed at the bottom part 40 and the support rebar assembly hole 51 formed at the bottom plate 50 and fixed thereto ( 60); A plurality of reinforcing bars 70 in which a screw 71 is processed at one end to be inserted into and fixed to the reinforcing bar assembly hole 42; And Steel pipe pile coupler (1) characterized in that it comprises a concrete (80) filled in the inner space of the steel pipe pile (10) formed by the vertical portion 20 and the bottom plate (50). Steel pipe pile (10); A tubular shape having an inclined surface 31 which is formed over the upper end of the steel pipe pile 10 and is in contact with the head portion 12 of the steel pipe pile 10 and is connected to the steel pipe pile 10 by welding. Vertical portion 20; The bottom portion 40 is formed integrally with the lower portion of the vertical portion 20, the hole 41 is provided at the center, and the reinforcing bar assembly hole 42 and the supporting rebar assembly hole 43 are formed at radial intervals. ); A bottom plate 50 disposed below the bottom part 40 to close the inside of the steel pipe pile 10 and having a plurality of supporting rebar assembly holes 51 at radial intervals; A plurality of support bars in which screws 61 and 62 are machined at both ends of the support rebar assembly hole 43 formed at the bottom part 40 and the support rebar assembly hole 51 formed at the bottom plate 50 and fixed thereto ( 60); A plurality of reinforcing bars 70 in which a screw 71 is processed at one end to be inserted into and fixed to the reinforcing bar assembly hole 42; And Steel pipe pile coupler (1) characterized in that it comprises a concrete (80) filled in the inner space of the steel pipe pile (10) formed by the vertical portion 20 and the bottom plate (50). delete delete According to claim 1 or 2, Steel pipe pile coupler (1) characterized in that it further comprises a plurality of support plates 22 installed inside the vertical portion 20 and the bottom portion 40 in contact with . The steel pipe pile coupling device (1) according to claim 1 or 2, further comprising a non-slip jaw (23) or a protrusion (24) protruding inwardly inside the vertical portion (20).