KR20220166451A - Steel beam jointing device connecting reinforced concrete beams and steel beams regardless of concrete curing, and construction method using the same - Google Patents

Abstract

The present invention relates to a steel beam jointing device (100, 100') for jointing a reinforced concrete beam (300) and a steel beam (200) regardless of concrete curing. In the case of jointing the steel beam (200) to only one side of the reinforced concrete beam (100), an L-shaped steel beam jointing device (100) is used. In the case of jointing a steel beam (200') to both sides of a reinforced concrete beam (100'), a U-shaped steel beam jointing device (100') is used. Thus, jointing types of the steel beam jointing devices (100, 100') and the steel beams (200, 200') are diversified. Rib plates (40, 40') are installed on the steel beam jointing devices (100, 100') to increase the self-stress of the steel beam jointing devices (100, 100'), thereby preventing buckling. The steel beam jointing devices (100, 100') themselves serve as a mold, and the entire vertical plates (10, 10') of the steel beam jointing devices (100, 100') respond to the shear force applied from the outside.

Description

Steel beam jointing device connecting reinforced concrete beams and steel beams regardless of concrete curing, and construction method using the same}

The present invention relates to an apparatus for joining a reinforced concrete beam and a reinforced concrete beam that can join a reinforced concrete beam and a steel beam regardless of concrete curing and a construction method using the same. It is about what is formed so that it can be joined.

In general, the steel structure and the concrete structure are different types of work, and in the case of a structure to which the two types of work are applied at the same time, the construction of the steel frame process is performed sequentially after the concrete work type is preceded. At this time, after burying the embedded plate, which is mainly used as a joint between the steel structure and the concrete structure, in the concrete structure, wait for a minimum of 7 days to a maximum of 28 days, which is the curing period during which the concrete can develop a certain strength or more, and then install the steel structure. can be installed. This is because the embedded plate applied to the joint is installed only on the side of the concrete structure, so that the concrete can support the joint only when a certain strength or more is expressed.

1 shows an example of a joint structure between a conventional concrete structure and a steel frame structure, and when concrete (1) is placed on the outer wall surface of a column, wall, beam, etc. constructed in a reinforced concrete structure, one side of the embedded plate (3) is first After being exposed and embedded, concrete (1) is poured, and when the poured concrete (1) is cured and has a certain strength, a plurality of bolts in fixing the steel beam (2) to the fixed embedded plate (3) Bolts formed on the vertical surface of the bolt fastening hole 5 and the cheolgolbo 2 after welding one side of the gusset plate 4, which is a joint plate on which the fastening hole 5 is formed, to the outer surface of the embedded plate 3 When the bolt is coupled using the fastening hole 5, the fixing is completed. In this way, in order to join a concrete structure such as a beam or column and the steel beam 20, the embedded plate 3 must be embedded and fixed in the concrete structure, then the concrete is poured, and the concrete 1 after a certain curing period has the required strength Only when it is abnormal, the concrete structure and the steel beam 5 are connected and joined using the embedded plate 3 installed in the concrete structure.

Therefore, even when rapid bonding between concrete structures such as beams and columns and steel beams 5 is required, there is a difficulty in having to wait until the concrete to be poured into the concrete structure secures the required strength.

Republic of Korea Patent Publication No. 10-2013-0078401, "Joint structure of shear embedded steel plate and RC member using shear plate and reinforcing bar coupler" is a joint surface between RC members and steel members such as RC columns and steel beams or RC slabs and steel beams. By joining the RC member and the steel frame member through a joint member composed of a shear embedded steel plate provided, a plurality of shear plates coupled to one side of the shear embedded steel plate facing the RC member, and a dowel bar joined using a reinforcing bar coupler, shear friction is reduced. It is about a joint structure between a shear embedded steel plate and an RC member using a shear plate and a reinforcing bar coupler that minimizes and enables vertical load transfer to act uniformly to the RC member. For the jointer, there is a problem in that the concrete to be poured into the RC member in which the joint member is buried has to be cured and wait until the required strength is secured.

Republic of Korea Patent Publication No. 10-2013-0078401 (published on July 10, 2013)

Accordingly, in view of the conventional problems as described above, the present invention relates to a cheolgolbo jointing device applied to a joint structure of a reinforced concrete beam and a cheolgolbo that does not require concrete curing and a construction method using the same,

An object of the present invention is to provide that in the bonding of the reinforced concrete beam and the reinforced concrete beam, regardless of the curing of the concrete cast on the reinforced concrete beam, the cheolgolbo and the reinforced concrete beam can be joined by simultaneously constructing the cheolgolbo and the reinforced concrete beam using a cheolgolbo joining device.

In addition, an object of the present invention is to use an L-shaped cheolgolbo jointing device when joining cheolgolbo to only one side of a reinforced concrete beam, and to use a U-shaped cheolgolbo joining device when joining cheolgolbo to both sides of a reinforced concrete beam. It is to provide something that can diversify the connection form of concrete beams and steel beams.

In addition, an object of the present invention is to prevent buckling by increasing the self-stress of the cheolgolbo joining device by installing a plurality of rib plates having the same height as the coating thickness in the cheolgolbo joining device, and to increase the adhesion between the cheolgolbo joining device and the concrete to be poured. is in providing

In addition, an object of the present invention is that the cheolgolbo joining device itself serves as a formwork, so the formwork is omitted at the junction between the reinforced concrete and the cheolgolbo, while the shear force applied from the cheolgolbo is provided to increase the corresponding stress according to the resistance of the entire vertical plate of the cheolgolbo is in

The present invention relates to a cheolgolbo jointing device capable of joining a reinforced concrete beam and a cheolgolbo regardless of the curing of concrete. A vertical plate made of a long steel plate of a certain thickness that is formed with a width greater than the total height of the cheolgolbo and is welded vertically with the vertical plate to match the horizontal length of the vertical plate and is integral with the vertical reinforcing bar A horizontal plate formed of the same width as that of the concrete beam and made of a long steel plate of a certain thickness integral with the lower surface of the reinforced concrete beam connected to both sides of the left and right ends in the horizontal direction, and a constant distance between the vertical plate and the horizontal plate in the horizontal direction It is intended to provide a rib plate formed with ribs, and a connection plate protruding from the center of the vertical plate and being joined to the cheolgolbo.

In addition, in the present invention, vertical plates are formed only at one end of the horizontal plate in the transverse direction in order to connect the cheolgolbo to only one side of the reinforced concrete beam, and at both ends in the transverse direction of the horizontal plate to join the cheolgolbo to both sides of the reinforced concrete beam. It is intended to provide that each vertical plate is formed.

In addition, the present invention is a construction method using a cheolgolbo joining device capable of joining a reinforced concrete beam and a cheolgolbo regardless of concrete curing, the step of mounting the cheolgolbo joining device at the formation position of the reinforced concrete beam to be joined with the cheolgolbo, joining the cheolgolbo Installing a lower formwork on the lower surface of the formation position of the reinforced concrete beam leading to both left and right ends of the horizontal plate in the horizontal direction of the device, fixing one end of the cheolgolbo and bonding and fixing the other end of the cheolgolbo to the connection plate of the cheolgolbo joining device , Reinforcing reinforcement at the formation position of the reinforced concrete beam, and installing anchor bolts on the vertical plate before or after the reinforcement, reinforcement except for the vertical plate of the steel beam joining device so that the reinforced concrete beam is formed at the formation position of the reinforced concrete beam The step of completing the installation of the formwork by installing the side formwork at the location where the concrete beam is formed, pouring concrete into the formwork, curing it, and then removing the formwork to complete the joint between the reinforced concrete beam and the steel beam.

The present invention has the effect of simultaneously constructing and joining the cheolgolbo and the reinforced concrete beam using the cheolgolbo joining device regardless of the curing of the concrete.

In addition, the present invention uses an L-shaped cheolgolbo joining device when joining the cheolgolbo on only one side of the reinforced concrete beam, and uses a U-shaped cheolgolbo joining device when joining the cheolgolbo to both sides of the reinforced concrete beam. There is an effect that can diversify the connection form of cheolgolbo and cheolgolbo.

In addition, the present invention has the effect of preventing buckling by increasing the self-stress of the cheolgolbo joining device by installing a plurality of rib plates having the same height as the coating thickness in the cheolgolbo joining device, and increasing the adhesion between the cheolgolbo joining device and the concrete to be poured. .

In addition, the present invention has the effect of increasing the responsiveness to the shear force applied from the cheolgolbo without installing the formwork at the junction of the reinforced concrete and the cheolgolbo because the cheolgolbo joining device itself serves as a formwork.

1 is a view showing a joint structure between a conventional concrete structure and a steel structure
Figure 2 is a perspective view of one embodiment of the present invention cheolgolbo bonding device
Figure 3 is a perspective view of an anchor bolt installed in one embodiment of the present invention cheolgolbo bonding device
4 to 7 is a perspective view showing a process of completing the joining of the two members by joining the cheolgolbo and the reinforced concrete beam to be formed using the cheolgolbo joining device in one embodiment of the present invention.
Figure 8 is a perspective view of the other implementation cheolgolbo bonding device in the present invention
Figure 9 is a perspective view of the anchor bolt installed in the other implementation of the present invention cheolgolbo bonding device
10 to 13 are perspective views showing the process of completing the joining of the two members by joining the reinforced concrete beam to be formed with the cheolgolbo using the cheolgolbo joining device in other implementations of the present invention
14 to 16 are photographs showing that the cheolgolbo bonding device of the present invention is installed in a ground support slab (Slab on grade; SOG), and the reinforcement is placed.
17 to 18 is a photograph showing that the other implementation of the present invention cheolgolbo bonding device is installed on the ground support slab and the reinforcement is placed

Hereinafter, the present invention will be described in detail based on the accompanying drawings, but the presented embodiments are exemplary for a clear understanding of the present invention, and the present invention is not limited thereto, and then the technical configuration of the present invention will be described in detail as follows same.

Figure 2 is a perspective view of a cheolgolbo bonding device in one embodiment of the present invention, Figure 3 is a perspective view of an anchor bolt installed in the cheolgolbo bonding device in one embodiment of the present invention, the cheolgolbo bonding device 100 of the present invention is formed in an L shape The vertical plate 10 is formed only at one end in the horizontal direction of the horizontal plate 20 by connecting the cheolgolbo 200 only to one side of the reinforced concrete beam 300. The horizontal of the vertical plate 10 is formed with a width capable of accommodating the flange and the anchor bolt 50 of the cheolgolbo 200 to be joined, and the vertical of the vertical plate 10 is greater than the total height of the cheolgolbo 200 to be joined. It is formed with a large width and is made of a long steel plate of a certain thickness that can accommodate the cheolgolbo (200).

In addition, the horizontal (a) of the horizontal plate 20 is vertically welded to the vertical plate 10 to match the horizontal length of the vertical plate 10, and the vertical (b) of the horizontal plate 20 is a reinforcing bar It is formed with the same width as the width of the concrete beam and is made of a long steel plate of a certain thickness integral with the lower surface of the reinforced concrete beam 300 leading to both sides of the left and right ends in the transverse direction. In the present invention, the cheolgolbo bonding device 100 has a vertical plate 10 and the vertical plate 10 formwork to be installed on the reinforced concrete beam 300 to be formed in the future while serving to support the cheolgolbo 200 to be joined At the same time, it is possible to join the reinforced concrete beam 300 and the cheolgolbo 200 regardless of the concrete curing, enabling economical and rapid construction.

The rib plate 40 having ribs formed at regular intervals in the horizontal direction of the vertical plate 10 and the horizontal plate 20 constituting the cheolgolbo bonding device 100 of the present invention is fixedly installed by welding, which is a cheolgolbo bonding device ( 100) not only increases the responsiveness to the external force by acting simultaneously with the vertical plate for the shear force applied from the steel beam 200 connected to the joint, but also prevents buckling due to the lateral pressure of the concrete cast on the reinforced concrete beam 300 have a function to In addition, by forming the height of the rib plate 40 to be installed at the same height as the cover thickness of the concrete, the structural stability of the reinforced concrete is increased, and the convenience of construction is increased by simply seating the reinforcing bars at the top of the leaf plate.

The connecting connection between the cheolgolbo 200 and the cheolgolbo bonding device 100 uses a connecting plate 30 protruding from the center of the vertical plate 10, the connecting plate 30 being bonded to the web of the cheolgolbo 200. Therefore, the vertical width of the connecting plate 30 protruding in the vertical direction must be smaller than the width of the web of cheolgolbo 200, of course. In addition, in the present invention, the anchor bolts 50 are inserted into the anchor bolt 50 holes formed at regular intervals in the longitudinal direction and the vertical direction of the vertical plate 10, and then integrally combined with the vertical plate 10 with a nut, The anchor bolt 50 has the same function as the anchor bolt 50 installed on the conventional embedded plate and attached to the concrete, and the number of anchor bolts 50 installed or the diameter of the anchor bolt 50 is generally the same as the conventional embedded anchor bolt 50. It is the same as calculated during plate design, and an end reinforcing anchor bolt tab is installed at the end of the anchor bolt 50, which is to strengthen the fixing power of the anchor bolt 50, mechanical fixation with the end reinforcing anchor bolt tab. A coupler is used. In addition, stud bolts 60 are installed at regular intervals in the horizontal and vertical directions of the horizontal plate 20, which also strengthens the integration of the concrete and steel beam joint device 100 to be poured by the stud bolt 60 to act from the outside This is to ensure that the concrete cured by the force and the cheolgolbo bonding device 100 behave integrally.

4 to 7 are perspective views showing a process of completing the joining of the two members by joining the cheolgolbo 200 and the reinforced concrete beam 300 to be formed using the cheolgolbo bonding device 100 in one embodiment of the present invention, first 4 shows that the anchor bolt 50 is mounted at the formation position of the reinforced concrete beam 300 to be joined with the cheolgolbo 200 as the support of the cheolgolbo bonding device 100, shown in the figure As shown, it can be installed after coupling the anchor bolt 50 to the cheolgolbo joint device 100, or, depending on the construction conditions, the anchor bolt 50 can be installed before or after the reinforcement after mounting the cheolgolbo joint device 100. can

And in order to install the formwork 70 to form the reinforced concrete beam 300, the lower formwork on the lower surface of the reinforced concrete beam formation position leading to both left and right ends in the horizontal direction of the horizontal plate 20 of the joining device 100 ( 71) is installed, and the lower formwork 71 is also supported by a support. 5 is not specifically shown in the drawing, but one end of the cheolgolbo 200 is fixed and the other end of the cheolgolbo 200 is bonded and fixed to the connection plate 30 of the cheolgolbo bonding device 100, and FIG. Reinforced concrete beams excluding the vertical plate 10 of the steel beam joining device 100 so that reinforcement is placed at the formation position of the reinforced concrete beam 300 and the reinforced concrete beam 300 is formed at the formation position of the reinforced concrete beam 300 7 shows that the formwork installation is completed by installing the side formwork 72 at the formation position of 300, and FIG. 7 is a reinforced concrete beam by removing the formwork 70 after curing by pouring concrete into the formwork 70 ( 300) and cheolgolbo (200) to show that the junction is completed.

That is, in order to join the cheolgolbo 200 only on one side of the reinforced concrete beam 300, the diagram shows the cheolgolbo jointing device 100 in which the vertical plate 10 is formed only at one end in the horizontal direction of the horizontal plate 20 On the other hand, in Figures 8 to 13 below, in order to join the cheolgolbo 200' to both sides of the reinforced concrete beam 300' formed, vertical plates 10' are installed at both ends in the horizontal direction of the horizontal plate 20', respectively. To show the formed other implementation cheolgolbo bonding device 100 ', Figure 8 is a perspective view of the other implementation cheolgolbo bonding device 100' in the present invention, Figure 9 is the other implementation cheolgolbo bonding device 100 'in the present invention 10 to 13 are a perspective view of the anchor bolt 50 'installed in, and Figures 10 to 13 are joined to the reinforced concrete beam 300' to be formed with the cheolgolbo 200' using the cheolgolbo bonding device 100 'when other practice in the present invention It is a perspective view showing the process of completing the joining of the two members.

8 is a U-shaped U-shaped cheolgolbo bonding device 100 'in the present invention, compared to the cheolgolbo bonding device 100 in one embodiment of the present invention of Figure 2, the vertical plate 10 at both ends in the horizontal direction of the horizontal plate 20' ') to bond the cheolgolbo (200 ') to both sides of the concrete beam by forming each. The installation of the rib plate 40' or the connecting plate 30' is substantially the same as in one embodiment of the present invention described above, and the difference is that both ends of the anchor bolt 50' are each vertical plate 10 There is a difference in being inserted into the hole of the anchor bolt 50' of ') and coupled with a nut. In addition, in the present invention, using the cheolgolbo jointing device 100 'to join the cheolgolbo 200' and the reinforced concrete beam 300' to be formed, Figures 10 to 10 show the process of completing the joining of the two members 13 is also made of substantially the same process as the content in FIGS. 4 to 7 described above, so a description thereof will be omitted.

14 to 16 are photographs showing that the cheolgolbo bonding device 100 of the present invention is installed in a ground support slab (Slab on grade; SOG), and the reinforcement is placed, the present invention described in FIGS. 4 to 7 above. While the horizontal plate 20 of the steel beam jointing device 100 and the lower formwork 71 of the reinforced concrete beam 300 to be formed are supported by shoring, FIGS. 14 to 16 omit the supporting shoring and support the ground. The horizontal plate 20 of the steel beam bonding device 100 and the lower formwork 71 of the reinforced concrete beam 300 to be formed are supported through the slab formed on the ground by the slab on grade (SOG) method. The ground support slab construction method is applied in the case of hard ground because the ground supports steel-framed concrete beams. In addition, as shown in FIG. 15, after mounting the cheolgolbo jointing device 100 in the ground support slab in the present invention and then placing the reinforcing bars, as shown in FIG. 16, the anchor to the vertical plate 10 of the cheolgolbo jointing device 100 To combine the bolts 50, the installation order of the anchor bolts 50 may be determined according to the site conditions as described above.

17 to 18 is a photograph showing that the other implementation of the present invention cheolgolbo bonding device 100 'is installed on the ground support slab and the reinforcement is placed, the horizontal plate 20 'of the cheolgolbo bonding device 100' and the horizontal The lower formwork 71 'installed at the formation position of the reinforced concrete beam leading to both sides of the left and right ends in the horizontal direction of the plate 20' is installed on the ground support slab. Although not specifically shown in the drawing, the steel beam (200 After the ') and the cheolgolbo bonding device 100' are joined, the reinforced concrete beam 300' joined to the cheolgolbo 200' is formed by the installation of the side formwork 72' and the casting of the reinforcement and concrete. Same process as described.

The construction method using the cheolgolbo joining device (100,100') that can join the reinforced concrete beams (300,300') and the cheolgolbos (200,200') regardless of the concrete curing configured as described above consists of the following steps, as described above. lose

First, following the step of mounting the cheolgolbo bonding device (100,100') at the formation position of the reinforced concrete beam (300,300') to be joined with the cheolgolbo (200,200'), the horizontal plates (20,20') of the cheolgolbo bonding device (100,100') ) Installing the lower formwork (71,71') on the lower surface of the formation position of the reinforced concrete beams (300,300') leading to both left and right ends in the horizontal direction, fixing one end of the steel beams (200,200') and forming the steel beams (200,200') Joining and fixing the other end of the steel beam jointing device (100,100') to the connecting plate (30,30'), reinforcing the reinforcing bar at the formation position of the reinforced concrete beam (300,300'), and placing the vertical plate before or after the reinforcement Step of installing anchor bolts (50,50') at (10,10'), the vertical direction of the steel beam joining device (100,100') so that the reinforced concrete beams (300,300') are formed at the formation position of the reinforced concrete beams (300,300') A step of completing the installation of the formwork (70,70') by installing the side formwork (72,72') at the formation position of the reinforced concrete beams (300,300') except for the plates (10,10'), formwork (70,70') ) After curing by pouring concrete, it is characterized in that the formwork (70, 70 ') is removed to complete the joining of the reinforced concrete beams (300, 300') and the steel beams (200, 200').

In addition, the lower formwork installed at the formation position of the reinforced concrete beams (300,300') connected to both sides of the horizontal plates (20,20') and the horizontal plates (20,20') of the horizontal plates (20,20') of the steel beam bonding device (100,100') (71,71') may be supported by supports (80,80'), and the horizontal plates (20,20') of the cheolgolbo bonding device (100,100') and the horizontal plates (20,20') in the horizontal direction The lower forms (71, 71') installed at the formation position of the reinforced concrete beams (300, 300') leading to both sides of the left and right ends may be supported on the ground support slab.

As described above, although the present invention has been described with limited examples and drawings, the terms or words used in the present specification and claims should not be construed as being limited to a common or dictionary meaning, and do not fall within the technical spirit of the present invention. It must be interpreted with the corresponding meaning and concept. Therefore, the embodiments described in this specification and the configurations shown in the drawings are only one embodiment of the present invention, and do not represent all of the technical spirit of the present invention, so that various It should be understood that there may be equivalents and variations.

10,10': vertical plate 20,20': horizontal plate
30,30': connecting plate 40,40': rib plate
50,50': anchor bolt 51,51': nut
52,52': Anchor bolt tap 53,53': Anchor bolt hole
60: stud bolt 70,70': formwork
71,71': lower formwork 72,72': side formwork
80,80': Shore 100,100': Cheolgolbo joining device
200,200': steel beam 300,300': reinforced concrete beam

Claims (10)

The horizontal plate is formed with a width that can accommodate the flange and anchor bolts of the cheolgolbo to be joined, and the vertical plate is formed with a width larger than the total height of the cheolgolbo to be joined, and is made of long-directional steel plates of a certain thickness that can accommodate the cheolgolbo. ;
The horizontal is welded vertically to the vertical plate to match the horizontal length of the vertical plate and is integrally formed, and the vertical is formed with the same width as the width of the reinforced concrete beam, and integral with the lower surface of the reinforced concrete beam leading to both left and right ends in the horizontal direction A horizontal plate made of a longitudinal steel plate of a certain thickness to be;
a rib plate having ribs formed at regular intervals in the horizontal direction of the vertical plate and the horizontal plate;
Characterized in that it is made of a connecting plate that protrudes from the center of the vertical plate and is joined to the cheolgolbo.
Cheolgolbo joining device that can connect reinforced concrete beam and cheolgolbo regardless of concrete curing.
in claim 1
Steel beams capable of joining reinforced concrete beams and steel beams regardless of concrete curing, characterized in that anchor bolts are installed that are inserted into anchor bolt holes formed at regular intervals in the longitudinal and longitudinal directions of the vertical plate and then coupled with nuts. junction device.
The method of claim 2,
Cheolgolbo bonding device capable of bonding the reinforced concrete beam and the cheolgolbo regardless of the concrete curing, characterized in that the end reinforcement anchor bolt tab is installed at the end of the anchor bolt.
The method of claim 1,
Cheolgolbo joining device capable of bonding the reinforced concrete beam and the cheolgolbo regardless of the concrete curing, characterized in that the vertical plate is formed only at one end in the transverse direction of the horizontal plate in order to connect the cheolgolbo to only one side of the reinforced concrete beam.
The method of claim 1,
In order to join the cheolgolbo to both sides of the reinforced concrete beam, vertical plates are formed at both ends of the horizontal plate in the transverse direction, respectively.
The method of claim 1,
The rib plate is a cheolgolbo bonding device capable of joining the reinforced concrete beam and the cheolgolbo regardless of the concrete curing, characterized in that formed at the same height as the covering thickness of the concrete.
The method of claim 1,
Cheolgolbo bonding device capable of bonding the reinforced concrete beam and the cheolgolbo regardless of the concrete curing, characterized in that the stud bolts are installed at regular intervals in the horizontal direction and the longitudinal direction of the horizontal plate.
Mounting the cheolgolbo bonding device at the formation position of the reinforced concrete beam to be joined with the cheolgolbo;
Installing a lower formwork on the bottom of the formation position of the reinforced concrete beams leading to both sides of the left and right ends in the horizontal direction of the horizontal plate of the steel beam bonding device;
Fixing one end of the cheolgolbo and bonding and fixing the other end of the cheolgolbo to the connecting plate of the cheolgolbo bonding device;
Reinforcing reinforcement at the formation position of the reinforced concrete beam, and installing anchor bolts to the vertical plate before or after the reinforcement;
Completing the installation of the formwork by installing side formwork at the formation position of the reinforced concrete beam, excluding the vertical plate of the steel beam joining device, so that the reinforced concrete beam is formed at the formation position of the reinforced concrete beam;
Characterized in that, after curing by pouring concrete into the formwork, the formwork is removed to complete the joining of the reinforced concrete beam and the steel beam.
A construction method using a cheolgolbo joining device that can join a reinforced concrete beam and a cheolgolbo regardless of concrete curing.
in claim 8
The horizontal plate of the cheolgolbo joining device and the lower formwork installed at the reinforced concrete beam formation position leading to both sides of the left and right ends in the horizontal direction of the horizontal plate are supported by shoring to join the reinforced concrete beam and the steel beam regardless of the concrete curing, characterized in that A construction method using a possible cheolgolbo joint device.
The method of claim 8,
The horizontal plate of the steel beam joining device and the lower formwork installed at the reinforced concrete beam formation position leading to both sides of the left and right ends in the horizontal direction of the horizontal plate are supported on the ground support slab. A construction method using a cheolgolbo joining device that can be joined.

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