KR100946879B1 - Connection for Steel Pile Head, Connection Structure and Method of Pile and Precast Concrete Pier Structure - Google Patents

Abstract

The present invention pre-fabricated concrete pier structure in a precast method to be installed in a narrow working space in a short period in accordance with the site situation that requires rapid construction, the precast concrete pier structure is moved to the site assembled directly on the pile To prevent traffic jams and to minimize traffic inconveniences, and to reinforce the pile head to further strengthen the stability of the pile head connection assembly, and the connection between the pile and the precast concrete pier structure using the same. It relates to a structure and a connection construction method thereof.

Pile, Pier, Bridges, Connection, Precast, Concrete, Structures, Construction, Assembly

Description

Assembly for connection of steel pipe pile and precast concrete pier structure, connection structure of steel pipe pile and precast concrete pier structure using the same and connection construction method

The present invention relates to an assembly for connecting a steel pipe pile and a precast concrete pier structure, a connection structure of a steel pipe pile and a precast concrete pier structure using the same, and a connection construction method thereof, specifically, to a site situation requiring rapid construction. Precast concrete piers can be prefabricated so that they can be installed within a short period of time even in a narrow work space, and the concrete piers can be transported to the site and assembled directly to the pile, enabling rapid construction and reinforcing the pile head. It would be possible.

In general, in a bridge construction, piles are usually constructed on the ground as a foundation so that a pier, which is a concrete structure, can be firmly installed.

The pile has a number of construction types, but the most of the construction type is a cast-in-place pile, embedded pile, driving pile.

The site-pouring pile is excavated from the surface of the ground to form an inlet hole having a depth, the reinforcing bar made by reinforcing steel bars into the inlet hole is constructed by filling with concrete.

The buried pile is excavated from the surface of the ground to the support layer to form a hole, and after the cement milk is injected into the hole, the steel pipe is inserted and struck, it is constructed by filling with concrete.

The driving pile is constructed in such a way that the steel pipe or the PHC pile is hit by the driving equipment to reach the supporting layer of the ground from the surface of the ground.

By the way, in the bridge construction, concrete structures such as bridges are usually constructed on the basis of piles installed in the ground by the site casting method. The construction of the site is completed by installing the formwork and dismantling it after curing the concrete.In order to construct the concrete pier structure using the formwork, various construction equipment for formwork installation and dismantling must be put and used, It takes up a lot of work site, and also requires an absolute time for curing concrete has a disadvantage in that it is not economically efficient with a long construction period.

For example, when bridges for overpasses, light rails, etc. are constructed in urban areas, the piles and piers installed on the ground are generally installed on roads through which vehicles pass, so it is common to bypass traffic vehicles or significantly reduce the number of lanes. By securing a working space and a working site, economical construction was urgently needed in that it caused inevitable traffic problems and serious traffic problems, resulting in inconvenience and time and economic damages.

The present invention has been developed to solve the above problems, in order to be installed within a short working space in a narrow working space in accordance with the on-site situation that requires rapid construction, the concrete pier structure is pre-fabricated in the precast method and then moved to the site pile New construction of pile head connection assembly, which can be assembled economically by shortening the air with rapid construction according to the installation of concrete piers, and economically constructing the pile head. An object of the present invention is to provide a connection structure of a cast concrete pier structure and a connection construction method thereof.

According to the present invention, the concrete pier structure is pre-fabricated in the precast method, and then assembled and installed directly to the pile in the field, it is possible to rapid construction in a narrow working space, thereby reducing the air, as well as economical construction The effect that can be achieved can be expected, and due to this effect it is possible to prevent the traffic jam and minimize the inconvenience of traffic.

In addition, in the present invention, since the assembly is easily assembled to the pile head to which the concrete pier structure is connected, the strength of the pile head may be reinforced, and safety with it may be expected.

In addition, in the present invention, the shock absorbing member is installed at the connection portion between the pile and the concrete pier structure in preparation for a vehicle collision, thereby protecting the connection portion, and in particular, to prevent damage or damage to the concrete pier structure and the head caused by the vehicle collision. In addition, since the shock absorbing member is installed in a simple assembly structure, the installation work can be expected to be simple and easy to handle.

In the present invention, as described above, the following technology is provided.

First, the present invention provides an assembly for connecting a pile and a precast concrete pier structure, the center is formed with a hole, the upper support member disposed on the assembly; A lower support member disposed below the assembly at a distance from the upper support member; And a plurality of support connecting rod members that are coupled and fixed along a circumference in a state of penetrating the upper support member and the lower support member such that the upper support member and the lower support member are fixed in a state where they are spaced from each other. An assembly for connecting the pile head is provided.

In the assembly as described above, the inlet hole is formed in the center of the lower support member facing the inlet hole of the upper support member; A connection pipe may be connected between the inlet holes.

In addition, in the present invention, the assembly is connected to the inlet hole of the upper support member is provided with a connecting pipe disposed in the lower direction, by placing a plurality of spacers between the lower end and the lower support member of the connecting pipe in the lateral direction It may be deformed into the shape in which the opening is formed.

Furthermore, in the present invention, in the above assembly, a plurality of through holes may be formed in a corresponding position to be assembled with the reinforcing bar in the lower support member.

On the other hand, in the present invention is a connection structure between the site pour pile and precast concrete piers structure including the reinforcing bar, the rebar network is placed in the perforated pile for the construction of the site pour pile In, concrete is poured with the exception of the head section; An assembly having the above-described through hole is disposed in the head section in such a state that the reinforcing bar network of the site-pouring pile is supported by the upper support through the lower support member; Concrete is poured in a state in which the upper support member of the assembly and the upper end of the support connecting rod member protruding from the upper support member are exposed in the head section; the connection member provided at the lower end of the precast concrete pier structure is the upper portion By being fixedly installed on the upper surface of the support member, there is provided a connection structure of the pile and precast concrete pier structure, characterized in that the site-pouring pile and the precast concrete pier structure is integrally connected by the assembly.

In the present invention, the connection structure may be modified to simultaneously cast concrete in the pile hole including the head section.

Furthermore, in the connection structure, the fixing structure may be fixedly installed in a state in which the connection structure surrounds the connection member so that the connection portion between the connection member and the assembly is not exposed.

On the other hand, the above connection structure may be applied to the connection structure of the steel piling pile and precast concrete pier structure constructed on the ground, in this case, the upper end of the steel pipe pile installed on the ground is supported by the upper support member The assembly is inserted into the steel pipe pile and fixedly installed; The connection member provided at the lower end of the precast concrete pier structure is fixed to the upper surface of the upper support member, so that the steel pipe pile and the precast concrete pier structure is integrally connected by the assembly.

Thus, in the embodiment applied to the steel pipe pile, the interior of the steel pipe pile can be cast through the opening formed between the connection pipe and the lower support member provided in the upper support member.

In addition, in the present invention as a method of connecting the construction of the cast-in-place concrete piles and pre-cast concrete piling structure, including the reinforcing bar network, the reinforcing pile is placed in the perforated pile for the construction of the site In the state, placing the concrete in a state excluding the head section; Disposing the assembly in the head section while the reinforcing bar network of the site-pouring pile is supported by the upper support through the lower support member; Placing concrete with the upper support member of the assembly and the upper end of the support connecting rod member protruding from the upper support member in the head section; And fixing and installing a connection member provided at a lower end of the precast concrete pier structure on an upper surface of the upper support member so that the site-pouring pile and the precast concrete pier structure are integrally connected by the assembly. There is provided a method of connecting a pile and a precast concrete pier structure.

In the present invention, the connection construction method may be modified to simultaneously cast concrete in the pile hole including the head section.

In addition, in the above connection construction method, following the step of placing concrete in the pile hole including the head section, install the formwork for investment construction in the connection portion of the connection member and the upper support member and place the fixed structure It may further comprise the step of.

In addition, in the present invention, as a method of connecting the steel piling pile and the concrete pier structure made of precast construction on the ground, the assembly is installed in the ground so that the upper end of the steel pipe pile is supported by the upper support member to the inside of the steel pipe pile Inserting and fixing the installation; And fixing and installing a connection member provided at a lower end of the precast concrete pier structure on an upper surface of the upper support member, wherein the steel pipe pile and the precast concrete pier structure are integrally connected by the assembly. The method of connecting piles and precast concrete piers is provided.

In the connection construction method as described above, following the step of fixedly installing the connection member on the upper surface of the upper support member, to install the formwork for investment construction in the connection portion of the connection member and the upper support member and cast the fixed structure It may further comprise a step.

Hereinafter, with reference to the drawings showing an embodiment of the present invention will be described a specific configuration of the present invention.

1 shows a perspective view of an assembly 10 for pile head reinforcement and connection with a concrete pier structure according to a first embodiment of the present invention.

As shown in the figure, the assembly 10 according to the present invention, the upper support member 12 is disposed on the upper portion, the lower support member 14 is disposed on the lower side, and the upper support member 12 along the circumference The upper support member 12 and the lower support member are formed by a plurality of support connecting rod members 16 penetrating the lower support member 14 and fasteners 18 and 46 fastened to and coupled to the support connecting rod member 16. (14) is firmly fixed in a state where the gap is maintained.

However, it is not necessary to be limited to the use of the fasteners 18 and 46 described above, and the support connecting rod member 16 and the upper and lower support members 12 and 14 may be fixed by welding. In addition, between the upper support member 12 and the lower support member 14 is provided with at least one band reinforcing bar 20 is integrated along the support connecting rod member 16 along the longitudinal direction of the support connecting rod member 16. It can be, by the band reinforcing bar 20 is to increase the binding force and the supporting force of the support connecting rod member 16.

At the centers of the upper support member 12 and the lower support member 14 are formed inlet holes 22 and 24 into which pipes (treme tubes) for concrete placing are inserted, respectively, and upper and lower support members 12 and 14, respectively. The connecting pipe 26 is connected between the inlet hole (22, 24) of. In this case, the connection pipe 26 is provided to assist in pouring cement milk or pouring concrete through the inlet hole (22, 24), to increase the support of the upper support member 12 and the lower support member 14 assembly 10 Exerts the function of further strengthening the).

On the other hand, the lower support member 14 is formed with a plurality of through-holes 28 along the rim, wherein the through-holes 28 are formed on the outside from the position where the support connecting rod member 16 penetrates the assembly 10 ) And the reinforcing bar (30) when assembling it is desirable to avoid the inconvenience caused by interference or assembly due to the support connecting rod member (16).

However, the position of the through hole 28 described above is not necessarily limited to the outside from the position where the support connecting rod member 16 penetrates, and may be installed at the same or inside the position where the support connecting rod member 16 penetrates. Do.

In addition, the assembly 10 and the concrete pier structure 32 by covering the protection member (S) in advance so that foreign substances do not stick to the upper end of the fastener 46 and the support connecting rod member 16 when the concrete 38 and 40 is poured. It is desirable to ensure that the connection can be made smoothly.

The assembly 10 configured as described above is assembled to the concrete pier structure 32 and the site pour pile 34, the connection structure is connected to the concrete pier structure 32 and the site pour pile 34 by this assembly (10). This is explained in detail in the following paragraphs.

Figure 2a shows a detailed exploded perspective view showing a state in which the precast concrete pier structure 32 and the site-pouring pile 34 according to the present invention is connected by the assembly 10 according to the first embodiment, Figure 2b FIG. 2 is a cross-sectional view of the assembly 10 according to the first embodiment assembled to the head of the site-pouring pile 34, and in FIG. 2C, a cross-sectional view of the assembly 10 cut along the line AA of FIG. 2B is shown. have.

As shown in the figure, a site-pouring pile 34 is constructed on the ground as a basis for allowing the concrete pier structure 32 prefabricated in a precast manner to be firmly installed.

The site-pouring pile 34 formed on the ground, as described above, drills the pile hole 36 from the surface of the ground, and inserts the reinforcing bar 30 manufactured by assembling the reinforcing bar into the pile hole 36. After the concrete 38 is constructed by pouring.

At this time, the pouring level of the concrete 38 is poured up to the level except for the head section (D) so that the assembly 10 can be assembled on the upper end of the rebar network (30).

When the concrete 38 is poured as described above, the assembly 10 having the above structure is assembled to the head of the site-pouring pile 34.

When assembling the assembly 10, the reinforcing bars constituting the reinforcing bar 30 are assembled to pass through the through holes 28 of the lower supporting member 14 to reach the inner surface of the upper supporting member 12.

When the assembly of the assembly 10 is completed as described above, the head section (D) of the site-pouring pile (34) is poured into the concrete 40 to bury the assembly (10) to be firmly fixed to the head of the pile (34). . At this time, the support connecting rod member 16 protruding from the upper support member 12 is installed so as not to be buried.

However, as described above, the concrete 38 and 40 may be divided and poured, and the reinforcing rod 30 is inserted into and fixed to the pile hole 36, and the assembly 10 is placed on the upper end of the reinforcing mesh 30. After assembling and fixing and installing, the concrete 38 of the portion except for the head section D and the concrete 40 of the head section D may be poured in a batch.

3A is a cross-sectional view showing a state in which the precast concrete pier structure 32 is assembled to the assembly 10.

As shown in the figure, when the assembly 10 is assembled to the site-pouring pile 34 and the casting of the concrete 40 to the head section D is completed, the precast concrete pier structure 32 is pre-fabricated. Assembled with the upper support member 12 of the assembly (10).

In this process, the supporting connecting rod member 16 protruding from the upper supporting member 12 passes through the coupling part 44 of the connecting member 42 provided at the bottom of the concrete pier structure 32, and is made of a nut or the like. The sphere 46 is fastened to the support connecting rod member 16 to the assembly 10 and the concrete pier structure 32 is assembled. At this time, the upper end portion of the support connecting rod member 16 is preferably a screw portion is formed so that the fastener 46 is tightened.

In the embodiment shown in the drawings has been described as a configuration in which the support connecting rod member 16 and the connecting member 42 of the concrete pier structure 32 is fastened and connected. However, the connection fixing between the connection member 42 and the assembly 10 of the concrete pier structure 32 is not necessarily limited thereto, and may be a fastening configuration if the connection fixing is made. For example, the connecting member 42 and the support connecting rod member 16 of the concrete pier structure 32 may be fixed to each other by welding, or the connecting member 42 and the upper support of the concrete pier structure 32 The members 12 can be welded to each other.

3B is a cross-sectional view illustrating a state in which the fixed structure 48 is installed at a portion where the concrete pier structure 32 and the assembly 10 are connected.

As shown in the drawing, when the connection of the precast concrete pier structure 32 and the assembly 10 is completed, the formwork 50 is installed around the connecting member 42 of the concrete pier structure 32, and the concrete is poured So that the fixing structure 48 is installed.

When the fixing structure 48 is installed, since the assembly portion of the assembly 10 and the connecting member 42 is embedded, the coupling force and the strength are enhanced, and the support connecting rod member 16, the fastener 46, and the connection Corrosion of the member 42 can also be prevented. Furthermore, even if corrosion proceeds, the fixed structure 48 is firmly held, so there is no problem in securing safety.

Figure 3c is a cross-sectional view showing a state in which the shock absorbing member 52 is installed on the outside of the fixed structure 48 according to the present invention, Figure 4 is a perspective view showing the shock absorbing member 52 according to the present invention It is.

As shown in the drawing, when the fixed structure 48 is installed, the following shock absorbing member 52 is installed to surround the outer surface to the fixed structure 48 in preparation for a vehicle collision, the concrete pier due to the vehicle collision The stability of the connection member 42 and the pile 34 of the structure 32 is prevented from being damaged further.

In the embodiment shown in the drawings, the shock absorbing member 52 is divided into two parts, and is installed in a prefabricated structure that is connected and assembled horizontally from both sides by a horizontal connection fastener 54, so the installation is easy. And easy to handle.

In addition, as the material, it is made of a variety of materials, such as concrete, synthetic resin, shock absorbing material, and furthermore, if the shock absorber can be buffered, why use any material.

5 is a perspective view of an assembly 10 for pile head reinforcement and connection with a concrete pier structure according to a second embodiment of the present invention.

The assembly 10 of the first embodiment described above is a through-hole 28 is formed in the lower support member 14 to be assembled with the reinforcing bar 30 in the type that is constructed as a site-pouring pile 34, embodiment 2 has a configuration that can be inserted into the interior of the steel pipe pile 62 to be engaged.

Specifically, as shown in the figure, the assembly 10 according to the present invention, the upper support member 12 is disposed at the top, the lower support member 64 is disposed at the bottom. The upper support member 12 and the lower support member 64 have an upper portion due to a plurality of support connecting rod members 66 penetrating along the rim, and fasteners 18 and 46 coupled to the support connecting rod members 66. The support member 12 and the lower support member 64 are firmly fixed.

In addition, between the upper support member 12 and the lower support member 64 is provided with at least one belt reinforcing bar 20 is integrated along the support connecting rod member 66 along the longitudinal direction of the support connecting rod member 66. As described above, the binding force and the supporting force of the support connecting rod member 66 are further increased.

In addition, the center of the upper support member 12 is formed with an inlet hole 22 through which a tremi tube for concrete injection is formed, and a connection tube 68 is provided in the inlet hole 22 of the upper support member 12. Connected to the lower support member 64. In this case, unlike the connection pipe 26 of the first embodiment of the connection pipe 68, a plurality of spacers 70 are disposed between the lower end of the connection pipe 68 and the lower support member 64.

An opening 72 is formed between the connection pipe 68 and the lower support member 64 by the spacer 70 as described above, and cement into the steel pipe pile 62 through the opening 72 formed as described above. Supply can be achieved by milk pouring or concrete pouring.

  Since the other components of Embodiment 2 are the same as those of Embodiment 1 described above, the same member numbers are used, and other descriptions are omitted.

The assembly 10 configured as described above is assembled to the concrete pier structure 32 and the steel pipe pile 62, the connection structure that the concrete pier structure 32 and the steel pipe pile 62 is integrally connected by this assembly (10). This will be described in detail in the following paragraphs.

FIG. 6A shows a detailed exploded perspective view showing a state in which the precast concrete pier structure 32 and the steel pipe pile 62 according to the present invention are connected by the assembly 10 according to the second embodiment, and FIG. 6B. A cross-sectional view of the assembly 10 according to the second embodiment assembled to the head of the steel pipe pile 62 is shown. In FIG. 6C, a cross-sectional view of the assembly 10 cut along the line BB of FIG. 6B is shown.

As shown in the drawings, the steel pipe pile 62 is constructed in the form of embedded in the ground as described above as a basis for allowing the concrete pier structure 32, which is pre-fabricated in the precast manner, to be firmly installed. . For reference, the accompanying drawings are shown as steel pipe piles 62 which are constructed in a buried form, but this is only one example for description and may be constructed as a steel pipe pile of a driving type.

When the steel pipe pile 62 is completed by the above construction, the assembly 10 is assembled to the head of the steel pipe pile 62, and in this process, the lower portion of the assembly 10 except for the upper support member 12 is a steel pipe pile ( 62 is inserted into the inside, and the steel pipe pile 62 is assembled in contact with the inner surface of the upper support member 12.

When the assembly of the assembly 10 is completed as described above, the supply is made by placing the concrete through the inlet hole 22 of the assembly 10, wherein the concrete flows along the connecting pipe 68 and opens the opening 72. It is fed into the inside of the steel pipe pile 62 is poured. For reference, in the accompanying drawings, the concrete is supplied to the entire interior of the steel pipe, or may be supplied to the lower support member 64 according to the result of the structural calculation.

FIG. 7A shows a cross-sectional view of a precast concrete pier structure 32 assembled to the assembly 10.

As shown in the drawing, when the assembly 10 is completed to the steel pipe pile 62, the pre-fabricated concrete pier structure 32 is placed on the upper support member 12 of the assembly 10 Is assembled.

In this process, the supporting connecting rod member 66 protruding from the upper supporting member 12 is coupled through the coupling part 44 of the connecting member 42 provided at the bottom of the concrete pier structure 32, and the fastener which is a nut Tightening and fastening of 46 is completed assembling the assembly 10 and the concrete pier structure 32.

Here, the upper end portion of the support connecting rod member 66 is preferably formed with a screw so that the fastener 46 can be tightened.

In the embodiment shown in the drawing has been described as a configuration in which the support connecting rod member 66 and the connection member 42 of the concrete pier structure 32, but can be fixed by welding as described above, concrete pier Any connection configuration may be used as long as the connection is secured to the connection member 42 and the assembly 10 compartment of the structure 32.

7B is a cross-sectional view illustrating a state in which the shock absorbing member 52 is installed on the outside of the fixed structure 48 according to the present invention, and in FIG. 7C, the shock absorbing member is external to the fixed structure 48 according to the present invention. A cross-sectional view showing a state in which 52 is installed is shown.

As shown in the drawing, when the connecting member 42 and the assembly 10 of the precast concrete pier structure 32 are assembled, the surroundings of the connecting member 42 of the concrete pier structure 32 as already described in Embodiment 1 The fixed structure 48 is installed on the vehicle, and the shock absorbing member 52 is installed on the outer surface of the fixed structure 48 in preparation for a vehicle collision.

According to the present invention, the concrete pier structure 32 manufactured by the precast method is installed on the pile (34, 62) directly installed on the site, the construction is quick and easy to prevent traffic jams and minimize the inconvenience of traffic In addition, through the reinforcement to the head of the pile (34, 62), it is possible to secure a strong and strong bearing capacity, as well as safety enough.

The assembly 10 according to the present invention described above will be suitable for the connection of the piles 34 and 62 and the concrete pier structure 32, but its use is not limited thereto and may be used in various connection structures.

In addition, the concrete pier structure 32 according to the present invention described above, a plurality of circular beams as shown in FIG. 8 or H-beams as shown in FIG. Can be made.

Although the preferred embodiments of the present invention have been described above, those skilled in the art will recognize that the present invention may be modified or modified in various ways. Therefore, changes of the embodiments of the present invention will not be able to escape the technical scope of the present invention.

1 is a perspective view showing the assembly for connecting the pile head according to the first embodiment of the present invention.

Figure 2a is a detailed exploded perspective view showing a state in which the site-pouring pile and the concrete pier structure is connected by the assembly according to the first embodiment.

Figure 2b is an assembled cross-sectional view showing a state in which the assembly according to the first embodiment is assembled to the site-pouring pile, and poured.

FIG. 2C is a cross-sectional view of the assembly cut along the line A-A shown in FIG. 2B.

3A is a cross-sectional view showing a state in which the concrete pier structure is assembled to the assembly according to the first embodiment.

Figure 3b is a cross-sectional view showing a state in which the fixed structure is installed on the connection portion of the assembly according to the concrete pier structure shown in FIG.

3C is a cross-sectional view illustrating a state in which a shock absorbing member is installed in the fixed structure shown in FIG. 3B.

Figure 4 is a perspective view of the shock absorbing member shown in Figure 3c.

Figure 5a is a perspective view showing the assembly for the connection of the head to the head according to the second embodiment of the present invention.

Figure 6a is a detailed exploded perspective view showing a state in which the steel pipe pile and the concrete pier structure is connected by the assembly according to the second embodiment.

6B is a cross-sectional view illustrating the assembled state of the assembly according to Example 2 in the steel pipe pile, and poured state.

6C is a cross-sectional view of the assembly cut along the line B-B shown in FIG. 6B.

7A is a cross-sectional view showing a state in which the concrete pier structure is assembled to the assembly according to the second embodiment.

FIG. 7B is a cross-sectional view illustrating a state in which a fixing structure is installed at a connection portion of the assembly according to Embodiment 2 with the concrete pier structure shown in FIG. 7A.

7C is a cross-sectional view illustrating a state in which a shock absorbing member is installed in the fixed structure shown in FIG. 7B.

8 is a perspective view showing another example of a precast concrete pier structure with a circular beam.

9 is a perspective view showing another example of a precast concrete pier structure containing an H-beam.

* Description of the symbols for the main parts of the drawings *

10 assembly 12 upper support member

14,64: lower support member 16,66: support connecting rod member

18,46 fastener 20 strip reinforcing bar

22,24: hole 26,68: connector

28: through-hole 30: rebar network

32: concrete pier structure 34: cast-in-place pile

38,40 concrete 42 connection member

44: coupling hole 48: fixed structure

50: formwork 52: shock absorbing member

54: horizontal connection fastener 62: steel pipe pile

70: spacer 72: opening

Claims (5)

As an assembly (10) buried in the steel pipe pile (62) at the upper end of the steel pipe pile (62), connecting the pile and the precast concrete pier structure (32), A plurality of support connecting rod members 66; Inlet hole 22 is formed in the center can be inserted into the pipe for placing concrete, disposed on the assembly 10, coupled to the plurality of support connecting rod member 66 and the plurality of support connecting rod An upper support member 12 for supporting the member 66; A lower support member disposed below the assembly 10 at intervals from the upper support member 12 and coupled to the plurality of support connecting rod members 66 to support the plurality of support connecting rod members 66; 64); A connection pipe 68 connected to the inlet hole 22 of the upper support member 12 and disposed in a lower direction; And And a plurality of spacers (70) arranged to form openings (72) in the lateral direction between the lower end of the connecting pipe (68) and the lower support member (64); The plurality of support connecting rod members 66 may include a circumference of the upper support member 12 and the lower support member 64 such that the upper support member 12 and the lower support member 64 are fixed in a state where they are spaced from each other. It has a structure that is coupled and fixed in a state penetrating; The plurality of support connecting rod members 66, when the assembly 10 is embedded in the pile at the upper end of the pile so that the upper end thereof can be coupled to the connecting member 42 of the concrete pier structure 32, the upper Assembly for connecting the steel pipe pile and the precast concrete pier structure, characterized in that it protrudes from the support member (12). As a connection structure between the steel pipe pile 62, which is constructed on the ground and filled with concrete, and the concrete pier structure 32 made of precast, The assembly 10 of claim 1 is inserted into and fixed to the inside of the steel pipe pile 62 so that an upper end of the steel pipe pile 62 installed on the ground is supported by the upper support member 12; A connection member 42 provided at a lower end of the precast concrete pier structure 32 is placed on an upper surface of the upper support member 12; Upper ends of the plurality of supporting connecting rod members 66 protruding from the upper surface of the upper supporting member 12 are combined with the connecting members 42 of the concrete pier structure 32 to precast the steel pipe pile 62 and the precast member. Connection structure of a steel pipe pile and a precast concrete pier structure, characterized in that the concrete pier structure (32) is integrally connected by the assembly (10) of claim 1. The method of claim 2, Concrete filled in the steel pipe pile 62 is poured through an opening 72 formed between the connection pipe 68 and the lower support member 64 provided in the upper support member 12. Connection structure between the steel pipe pile and the precast concrete pier structure. As a method of connecting the steel pipe pile 62 to be constructed on the ground and the concrete pier structure 32 made of precast, The assembly of claim 1 is inserted into the interior of the steel pipe pile 62 so that the upper support member 12 is supported on the upper end of the steel pipe pile 62 is installed on the ground; Pouring concrete through the inlet hole of the assembly (10) of claim 1 so that the assembly (10) of claim 1 is embedded in the concrete; And The connection member 42 provided at the lower end of the precast concrete pier structure 32 is coupled to the upper end of the plurality of support connecting rod member 66 protruding to the upper surface of the upper support member 12, Including the cast concrete pier structure 32 is fixed to the upper surface of the upper support member 12, The steel pipe pile and the precast concrete pier structure (32) is connected to the steel pipe pile and precast concrete pier structure, characterized in that integrally connected by the assembly (10) of claim 1. The method of claim 4, wherein Following the step of fixedly installing the connecting member 42 on the upper surface of the upper support member 12, the formwork 50 for embedding in the connection portion of the connecting member 42 and the upper support member 12 Installing and connecting the steel pipe piles and precast concrete pier structure characterized in that it further comprises the step of pouring the fixed structure (48).

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