KR102277223B1 - Hybrid Beam Structure Using Steel Plate and Concrete - Google Patents

Abstract

The present invention relates to a hybrid beam structure using a steel plate and concrete, which comprises: a lower panel (100) having a lower plate (110) formed long in a front direction, and having lower connection portions (120) formed on both sides of the lower plate (110); a side panel (200) in which a vertical plate (210) is formed long in the front direction, and a first vertical connection portion (220) and a second vertical connection portion (230) are formed on upper and lower portions of the vertical plate (210), respectively; a lower reinforcement portion (300) having a horizontal portion (310) formed long on one surface in a horizontal direction, wherein both sides of the horizontal portion (310) are cut to be inclined such that lower inclined portions (320) are formed respectively; a vertical reinforcement portion (400) having a vertical portion (410) formed long on one surface in a vertical direction, wherein a lower portion of the vertical portion (410) is cut to be inclined such that a vertical inclined portion (420) is formed; reinforcing iron materials (500) clinched to the horizontal portion (310) of the lower reinforcement portion (300) and the vertical portion (410) of the vertical reinforcement portion (400), respectively, to support a pouring load of concrete filled in the insides of the lower panel (100) and the side panel (200); and a piano wire (600) having one side and the other side obliquely coupled to the vertical reinforcement portion (400) and the vertical reinforcement portion (400) disposed on a right side of the vertical reinforcement portion (400), respectively, so as to support the side panel (200).

Description

{Hybrid Beam Structure Using Steel Plate and Concrete}

The present invention relates to a steel plate-concrete composite beam structure, and more particularly, side plates are respectively installed on both sides of the inner side of the lower plate, and a plurality of lower reinforcing parts and vertical reinforcing parts are respectively clinched joined to the inner side of the lower plate and the side plate, and the lower A reinforcing steel is clinched between the reinforcing part and the vertical reinforcing part, and two piano wires are inclinedly coupled in an X shape to the vertical reinforcing part and the vertical reinforcing part disposed on the right side of the vertical reinforcing part to be poured inside. It relates to a steel plate-concrete composite beam structure with increased rigidity so as to strongly support concrete.

Formwork is a structure temporarily installed in order to make a concrete structure into a predetermined shape and size. In other words, after making a mold for pouring concrete, such as a column, floor, or wall, pour the concrete, and after it hardens, the mold is removed. This is called a form.

In general, in the conventional steel plate-concrete composite beam structure, a form suitable for the shape of the structure is manufactured, and concrete is poured into the formwork after filling the formwork with reinforcing bars to reinforce the strength of concrete inside the formwork.

However, in the conventional steel plate-concrete composite beam structure, the rigidity for the lower plate installed in the lower portion and the vertical plate installed on both sides of the lower plate is not sufficient, and the steel plate-side pressure of the concrete poured inside the concrete composite beam There was a problem that was difficult to endure.

In addition, in the conventional steel plate-concrete composite beam structure, the rigidity of the reinforcing material for reinforcing the inner and outer sides of the steel plate-concrete composite beam is not sufficient, and the structural stability of the steel plate-concrete composite beam is lowered. .

KR Special 2003-0086531 A KR 10-2006-0068694 A

The present invention has been devised to solve the above problems, and an object of the present invention is to install side plates on both sides of the inner side of the lower plate, and a plurality of lower reinforcing parts and vertical reinforcing parts on the inside of the lower plate and the side plate, respectively, by clinching joints It is to provide a steel plate-concrete composite beam structure that can sufficiently support the lateral pressure of the concrete poured on the inner side of the lower plate and the side plate.

In addition, it is an object of the present invention to clinch the reinforcing iron between the lower reinforcing part and the vertical reinforcing part, and two piano wires to the vertical reinforcing part and the vertical reinforcing part disposed on the right side of the vertical reinforcing part in the shape of an X. It is intended to provide a steel plate-concrete composite beam structure in which rigidity is increased and structural stability is further strengthened by being inclined to combine.

In order to solve the above technical problems, the steel plate-concrete composite beam structure according to the present invention has a lower plate 110 formed long in the forward direction, and lower connection parts 120 on both sides of the lower plate 110 are The formed lower plate 100, a longitudinal plate 210 in the forward direction is formed, and the first vertical connection part 220 and the second vertical connection part 230 are formed on the upper and lower portions of the vertical plate 210, respectively. 200), a horizontal portion 310 is formed long in the horizontal direction on one surface, both sides of the horizontal portion 310 are cut obliquely, the lower reinforcing portion 300 in which the lower inclined portion 320 is formed, respectively, perpendicular to one surface The portion 410 is formed to be elongated in the vertical direction, and the lower portion of the vertical portion 410 is cut to be inclined, and the vertical reinforcing portion 400 having the vertical inclined portion 420 formed thereon and the horizontal portion of the lower reinforcing portion 300 . Reinforcing steel 500 that is respectively clinched joined to the vertical portion 410 of the 310 and the vertical reinforcement 400 to support the loading load of the concrete filled inside the lower plate 100 and the side plate 200; One side and the other side are obliquely coupled to the vertical reinforcement part 400 and the vertical reinforcement part 400 disposed on the right side of the vertical reinforcement part 400, respectively, and the piano wire 600 supporting the side plate 200 is formed. characterized by including.

In addition, the lower connecting portion 120 has a plurality of first clinching points 121 formed on the outer surface in the longitudinal direction of the lower connecting portion 120 , and the plurality of first clinching points 121 are formed by the clinching facility 700 . The chinching point 121 is punched, characterized in that it is clinched to the lower portion of the vertical plate 210 .

In addition, a plurality of second clinching points 111 are formed on the outer surface of the lower plate 110 in horizontal and forward directions, and the second clinching points 111 are punched by the clinching facility 700 . The clinching is joined to the other surface of the lower reinforcing part 300, and the vertical plate 210 has a plurality of third clinching points 211 formed on the outer surface in vertical and forward directions, and the clinching facility The plurality of third clinching points 211 are punched by 700 and are clinched to the other surface of the vertical reinforcing part 400 .

In addition, in the lower reinforcement part 300, vertical reinforcement parts 400 are respectively disposed on both sides so that the lower inclined part 320 is in surface contact with the vertical inclined part 420, and the lower reinforcement part 300 is The lower reinforcement part 300 at the rear is separately disposed so as to be in front-back symmetrical surface contact, and the coupling cross-section of the lower reinforcement part 300 and the lower reinforcement part 300 disposed at the rear of the lower reinforcement part 300 is U-shaped. The lower reinforcement part 300 is formed in the shape of the lower reinforcement part 300 and disposed at the rear of the lower reinforcement part 300 so that the lower inclined part 320 is in surface contact with the vertical inclined part 420 by the vertical reinforcement part 400 on both sides. ) is characterized in that each is separately arranged.

In addition, a plurality of fourth clinching points 510 are formed on the front surface of the reinforcing iron material 500 , and the plurality of fourth clinching points 510 are punched out by a clinching facility 700 , so that the horizontal It is characterized in that it is joined to one side of the part 310 and the vertical part 410 by clinching.

In addition, the reinforcing iron material 500 is characterized in that the R portion 520 having a radius of 5 mm or more is formed on the inner surface to prevent the concentration of the load.

In addition, the vertical portion 410 of the vertical reinforcement 400 has fastening holes 411 formed through the upper and lower portions, respectively, and the piano wire 600 has one side of the upper portion of the vertical reinforcement 400 . It is fastened to the fastening hole 411 through the sleeve 610 compressed in the form of a flat plate, and the other side is the fastening hole 411 of the lower part of the vertical reinforcing part 400 disposed on the right side of the vertical reinforcing part 400. It is characterized in that it is fastened through the sleeve 610 compressed in the form of a flat plate.

In the steel plate-concrete composite beam structure according to the present invention, side plates are respectively installed on both inner sides of the lower plate, and a plurality of lower reinforcing parts and vertical reinforcing parts are respectively clinched connected to the inner side of the lower plate and the side plate, and the lower plate and the side plate are poured inside It has the effect of sufficiently supporting the lateral pressure of the concrete.

In addition, in the steel plate-concrete composite beam structure according to the present invention, reinforcing iron is clinched between the lower reinforcing part and the vertical reinforcing part, and two pianos in the vertical reinforcing part and the vertical reinforcing part disposed on the right side of the vertical reinforcing part The lines are inclinedly coupled in the shape of an X, so that rigidity is increased, and structural stability is further strengthened.

1 is a perspective view of a steel plate-concrete composite beam structure according to a first embodiment of the present invention.
2 is a front view of a steel plate-concrete composite beam structure according to a first embodiment of the present invention.
3 is an exploded view for explaining the coupling relationship between the lower plate and the side plate shown in FIG. 1 .
4 is a detailed view for explaining the coupling relationship between the lower plate and the side plate shown in FIG. 3 .
5 is an exploded view of the side plate shown in FIG. 3 .
6 is an exploded view of the lower plate shown in FIG. 3 .
FIG. 7 is a view for explaining a coupling relationship between the lower reinforcement part and the vertical reinforcement part shown in FIG. 1 .
FIG. 8 is an exploded view for explaining a coupling relationship between the lower reinforcement part and the vertical reinforcement part shown in FIG. 7 .
9 is a front view of the reinforcing iron shown in FIG. 2 .
FIG. 10 is a view for explaining a process in which the lower connection part shown in FIG. 1 is clinched to a vertical plate by a clinching facility.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings in order to describe in detail enough that those of ordinary skill in the art to which the present invention pertains can easily implement the technical idea of the present invention.

However, the following examples are merely examples to help the understanding of the present invention, thereby not reducing or limiting the scope of the present invention. In addition, the present invention may be embodied in several different forms and is not limited to the embodiments described herein.

1 is a perspective view of a steel plate-concrete composite beam structure 10 according to a first embodiment of the present invention, and FIG. 2 is a front view of a steel plate-concrete composite beam structure 10 according to a first embodiment of the present invention.

3 is an exploded view for explaining the coupling relationship between the lower plate 100 and the side plate 200 shown in FIG. 1 , and FIG. 4 is an exploded view for explaining the coupling relationship between the lower plate 100 and the side plate 200 shown in FIG. 3 . It is a detailed diagram for

5 is an exploded view of the side plate 200 shown in FIG. 3 , and FIG. 6 is an exploded view of the lower plate 100 shown in FIG. 3 .

7 is a view for explaining a coupling relationship between the lower reinforcement part 300 and the vertical reinforcement part 400 shown in FIG. 1, and FIG. 8 is the lower reinforcement part 300 and the vertical reinforcement part 400 shown in FIG. 400) is an exploded view to explain the bonding relationship.

9 is a front view of the reinforcing iron material 500 shown in FIG. 2 , and FIG. 10 is a process in which the lower connection part 120 shown in FIG. 1 is clinched to the vertical plate 210 by the clinching facility 700 . It is a drawing for explaining.

1 and 2 , the steel plate according to the first embodiment of the present invention-concrete composite beam structure 10 has a lower plate 100 , a side plate 200 , a lower reinforcement part 300 , and a vertical reinforcement part 400 . ), a reinforcing material 500 and a piano wire 600 are included.

1 to 4 , a lower plate 110 is formed in the center of the lower plate 100 in a forward direction, and lower connection parts 120 are formed on both sides of the lower plate 110 . Specifically, the lower plate 100 is in the shape of a flat plate having a predetermined thickness, and both sides of the lower plate 100 are bent at right angles to form the lower connection part 120 .

1 to 4 , a vertical plate 210 is formed in the center of the side plate 200 in the forward direction, and the first vertical connection part 220 and the second vertical connection part 220 and the second vertical plate 210 are formed on the upper and lower portions of the vertical plate 210 . Connection parts 230 are respectively formed. Specifically, the side plate 200 is in the shape of a flat plate having a predetermined thickness, and the upper and lower portions of the side plate 200 are bent at right angles, respectively, so that the first vertical connection part 220 and the second vertical connection part 230 are formed. .

4 and 5 , on the outer surface of the lower connection part 120 of the lower plate 100 , a plurality of first clinching points 121 are formed in the longitudinal direction of the lower connection part 120 .

In addition, the side plates 200 are disposed on both inner sides of the lower plate 100 , respectively. Specifically, the lower connection part 120 and the lower plate 110 of the lower plate 100 are disposed to surface-contact the vertical plate 210 and the second vertical connection part 230 of the side plate 200 .

Referring to FIG. 10 , the lower connection part 120 of the lower plate 100 is a plurality of first clinching points 121 of the lower connection part 120 by the clinching facility 700 punched out, the vertical plate 210 . It is joined by clinching at the bottom of the

7 and 8, the lower reinforcing part 300 is in the shape of a square tube having a cross-section in the shape of an L, and on one surface of the lower reinforcing part 300, a horizontal part 310 is formed long in the horizontal direction, and the horizontal part ( Both sides of the 310 are obliquely cut in the shape of a right-angled triangle, respectively, to form a lower inclined portion 320 .

In addition, the vertical reinforcing part 400 has a shape of a square tube having a cross-section in the form of an L, and on one surface of the vertical reinforcing part 400, a vertical part 410 is formed long in the vertical direction, and the lower part of the vertical part 410 is a right-angled triangle. It is cut obliquely in the shape of a vertical inclined portion 420 is formed.

At this time, the vertical inclined portion 420 of the vertical reinforcing portion 400 is in surface contact with the lower inclined portion 320 of the lower reinforcing portion 300 .

5 and 6 , a plurality of second clinching points 111 are formed on the outer surface of the lower plate 110 of the lower plate 100 in horizontal and forward directions.

1 and 2 , the lower plate 110 of the lower plate 100 is disposed to make surface contact with the other surface of the lower reinforcing part 300 .

In addition, the lower plate 110 of the lower plate 100 is punched with a plurality of second clinching points 111 of the lower plate 110 by the clinching facility 700 , and is formed on the other surface of the vertical reinforcing part 400 . Clinching is joined.

5 and 6 , and on the outer surface of the vertical plate 210 of the side plate 200 , a plurality of third clinching points 211 are formed in the vertical and forward directions.

1 and 2 , the vertical plate 210 of the side plate 200 is disposed to make surface contact with the other surface of the vertical reinforcing part 400 .

In addition, as for the vertical plate 210 of the side plate 200, a plurality of third clinching points 211 of the vertical plate 210 are punched out by the clinching facility 700, so that the vertical reinforcement parts 400 and 400 are formed. It is joined by clinching to the other surface of the

Accordingly, the vertical reinforcement parts 400 are respectively disposed on both sides of the lower reinforcement part 300 . In addition, a separate lower reinforcing part 300 and two vertical reinforcing parts 400 are respectively arranged to make surface contact at the rear of the lower reinforcing part 300 and the two vertical reinforcing parts 400 , and the lower reinforcing part (300) and the coupling cross-section of the lower reinforcement part 300 disposed at the rear of the lower reinforcement part 300 is formed in a U-shape.

Specifically, on both sides of the lower reinforcement part 300 , the vertical reinforcement parts 400 are respectively disposed so that the lower inclined parts 320 are in surface contact with the vertical inclined parts 420 .

In addition, the lower reinforcement part 300 is separately disposed at the rear of the lower reinforcement part 300 so as to be in front-back symmetrical surface contact, and the lower reinforcement part 300 and the lower reinforcement part disposed at the rear of the lower reinforcement part 300 . The coupling cross-section of 300 is formed in a U-shape.

In addition, on both sides of the lower reinforcement part 300 disposed at the rear of the lower reinforcement part 300 , the vertical reinforcement part 400 is separately disposed so that the lower inclined part 320 is in surface contact with the vertical inclined part 420 . .

2 and 9, the reinforcing steel 500 is fixedly coupled to one surface of the lower reinforcing part 300 and the vertical reinforcing part 400, respectively, and the lower plate 100 and the side plate 200 are filled with concrete. support the pouring load of Specifically, the reinforcing iron material 500 fixedly couples the lower inclined portion 320 of the lower reinforcing portion 300 and the vertical inclined portion 420 of the vertical reinforcing portion 400 . Here, the reinforcing iron material 500 is formed of an L-shaped plate material having a predetermined thickness.

Meanwhile, a plurality of fourth clinching points 510 are formed on the front surface of the reinforcing material 500 . In addition, as for the reinforcing iron material 500 , a plurality of fourth clinching points 510 of the reinforcing iron material 500 are punched out by the clinching facility 700 , so that one side of the horizontal portion 310 and the vertical reinforcing portion 400 . is clinched to the joint.

In addition, an R portion 520 having a radius of 5 mm or more is formed on the inner surface of the reinforcing material 500 to prevent the concentration of load.

Referring to FIG. 2 , fastening holes 411 are respectively formed through the upper and lower portions of the vertical portion 410 of the vertical reinforcing portion 400 .

And, the piano wire 600 is obliquely coupled to one side and the other side to the vertical reinforcement part 400 and the vertical reinforcement part 400 disposed on the right side of the vertical reinforcement part 400, respectively, to support the side plate 200 . .

Specifically, the piano wire 600 is fastened through a sleeve 610 with one side pressed in the form of a flat plate to the fastening hole 411 of the upper part of the vertical reinforcement part 400, and the other side is the vertical reinforcement part 400. It is fastened through the sleeve 610 compressed in the form of a flat plate to the fastening hole 411 of the lower portion of the vertical reinforcement 400 disposed on the right side of the plate 200 to support the side plate 200 .

Similarly, the piano wire 600 and the other piano wire 600 have one side and the other side of the fastening hole 411 in the lower part of the vertical reinforcement 400 and the vertical reinforcement part disposed on the right side of the vertical reinforcement part 400 . It is fastened through the sleeve 610 pressed into the fastening hole 411 of the upper part of the 400 .

At this time, the sleeve 610 is formed in the shape of a circular pipe having a predetermined thickness.

The method of fastening one side of the piano wire 600 to the fastening hole 411 of the upper part of the vertical reinforcement part 400 is as follows.

First, one end of the piano wire 600 is inserted into the sleeve 610 , and then the piano wire 600 is bent and inserted into the fastening hole 411 of the upper part of the vertical reinforcement 400 . After that, one end of the piano wire 600 is reinserted into the sleeve 610, and then the sleeve 610 is compressed in the form of a flat plate, and one end of the piano wire 600 is removed from the compressed sleeve 610. prevent it from escaping.

Next, the steel plate according to the present invention-concrete composite beam structure 10 will be described with respect to the installation process.

1 and 2 , the side plate 200 is disposed on the inner left side of the lower plate 100 . The lower connection part 120 and the lower plate 110 of the lower plate 100 are arranged to be in surface contact with the vertical plate 210 and the second vertical connection part 230 of the side plate 200. (S101)

In addition, the lower connection part 120 of the lower plate 100 is punched with a plurality of first clinching points 121 of the lower connection part 120 by the clinching facility 700 to be cleaned in the lower part of the vertical plate 210 . It is joined together. (S102)

Meanwhile, the side plate 200 is separately disposed on the inner right side of the lower plate 100 . In addition, the lower plate 100 and the side plate 200 disposed on the right side of the lower plate 100 are cleaned in the same manner as in the clinching bonding process of the lower plate 100 and the side plate 200 disposed on the left side of the lower plate 100 . It is joined together. (S103)

In addition, the vertical reinforcement 400 is disposed on the left side of the lower reinforcement part 300 . In addition, the lower plate 110 of the lower plate 100 is disposed so as to be in surface contact with the other surface of the lower reinforcing part 300 . (S104)

In addition, the lower plate 110 of the lower plate 100 is punched with a plurality of second clinching points 111 of the lower plate 110 by the clinching facility 700 , and is formed on the other surface of the vertical reinforcing part 400 . Clinching is joined. (S105)

Then, the vertical plate 210 of the side plate 200 is arranged to be in surface contact with the other surface of the vertical reinforcing part 400. (S106)

In addition, a plurality of third clinching points 211 of the vertical plate 210 are punched out of the vertical plate 210 of the side plate 200 by the clinching facility 700 to the other surface of the vertical reinforcement 400 . Clinching is joined. (S107)

In addition, the vertical reinforcement 400 is disposed on the right side of the lower reinforcement part 300 . In addition, the lower reinforcing part 300 and the vertical reinforcing part 400 disposed on the right side of the lower reinforcing part 300 are clean on the lower plate 100 and the side plate 200 disposed on the right side of the lower plate 100 , respectively. It is joined together. (S108)

And, the lower inclined portion 320 of the lower reinforcing part 300 and the vertical inclined portion 420 of the vertical reinforcing part 400 are arranged to be in surface contact with each other, and the reinforcing iron material 500 is the lower reinforcing part 300 . It is disposed between the horizontal portion 310 and the vertical portion 410 of the vertical reinforcement portion 400. (S109)

In addition, the reinforcing iron material 500 is punched by a plurality of fourth clinching points 510 of the reinforcing iron material 500 by the clinching facility 700 to one side of the horizontal portion 310 and the vertical portion 410 . Each is joined by clinching. (S110)

Then, the lower reinforcing part 300 and the vertical reinforcing part 400 disposed on the right side of the lower reinforcing part 300 are joined by clinching by the reinforcing iron material 500 . (S111)

And, one side of the piano wire 600 is fastened through the sleeve 610 pressed in the form of a flat plate to the fastening hole 411 of the upper portion of the vertical reinforcement 400, and the other side of the vertical reinforcement 400 It is fastened through the sleeve 610 compressed in the form of a flat plate in the fastening hole 411 of the lower part of the vertical reinforcement 400 disposed on the right side. (S112)

Similarly, the piano wire 600 and the other piano wire 600 have one side and the other side of the fastening hole 411 in the lower part of the vertical reinforcement 400 and the vertical reinforcement part disposed on the right side of the vertical reinforcement part 400 . It is fastened through the sleeve 610 pressed into the fastening hole 411 of the upper part of the 400 (S113).

In the steel plate-concrete composite beam structure 10 according to the present invention, side plates 200 are respectively installed on both inner sides of the lower plate 100 , and a plurality of lower reinforcement parts 300 on the inner side of the lower plate 100 and the side plate 200 . ) and the vertical reinforcing part 400 are clinched joints, respectively, there is an advantage that can sufficiently support the lateral pressure of the concrete poured inside the lower plate 100 and the side plate 200.

In addition, in the steel plate-concrete composite beam structure 10 according to the present invention, the reinforcing steel 500 is clinched between the lower reinforcing part 300 and the vertical reinforcing part 400, and the vertical reinforcing part 400 and The two piano wires 600 are inclinedly coupled to the vertical reinforcement part 400 disposed on the right side of the vertical reinforcement part 400 in an X-shape, so that rigidity is increased and structural stability is further strengthened. .

As described above, the present invention has a main technical idea to provide a steel plate-concrete composite beam structure 10, and the embodiment described above with reference to the drawings is only one embodiment, and the true right of the present invention The scope is based on the claims, but will also extend to equivalent embodiments that may exist in various ways.

10: steel plate according to the first embodiment of the present invention-concrete composite beam structure
100: lower plate 110: lower plate
111: second clinching point 120: lower connection part
121: first clinching point 200: side plate
210: vertical plate 211: third clinching point
220: first vertical connection 230: second vertical connection
300: lower reinforcement part 310: horizontal part
320: lower inclined portion 400: vertical reinforcement
410: vertical portion 411: fastening hole
420: vertical slope 500: reinforcing steel
510: fourth clinching point 520: R region
600: piano wire 610: sleeve
700: clinching equipment

Claims (7)

a lower plate 100 having a lower plate 110 formed long in the front direction, and lower connecting portions 120 formed on both sides of the lower plate 110;
A side plate 200 in which a vertical plate 210 is formed long in the front direction, and a first vertical connection part 220 and a second vertical connection part 230 are formed on the upper and lower portions of the vertical plate 210, respectively;
a lower reinforcement part 300 in which a horizontal part 310 is formed long in a horizontal direction on one surface, both sides of the horizontal part 310 are cut to be inclined, and a lower inclined part 320 is formed, respectively;
a vertical reinforcing part 400 in which a vertical part 410 is formed long in a vertical direction on one surface, a lower portion of the vertical part 410 is cut to be inclined, and a vertical inclined part 420 is formed;
Concrete is poured into the lower plate 100 and the side plate 200 by clinching bonding to the horizontal part 310 of the lower reinforcement part 300 and the vertical part 410 of the vertical reinforcement part 400, respectively. Reinforcing steel 500 to support the load; and
a piano wire 600 having one side and the other side obliquely coupled to the vertical reinforcing unit 400 and the vertical reinforcing unit 400 disposed on the right side of the vertical reinforcing unit 400, respectively, to support the side plate 200; including,
The vertical part 410 of the vertical reinforcement part 400 is
Fastening holes 411 are respectively formed through the upper and lower portions,
The piano wire 600 is
One side is fastened through the sleeve 610 compressed in the form of a flat plate to the fastening hole 411 of the upper portion of the vertical reinforcement 400, and the other side is a vertical reinforcement disposed on the right side of the vertical reinforcement 400. Steel plate-concrete composite beam structure, characterized in that it is fastened through a sleeve 610 compressed in the form of a flat plate in the fastening hole 411 of the lower part. The method of claim 1,
The lower connection part 120 is
A plurality of first clinching points 121 on the outer surface are formed in the longitudinal direction of the lower connection part 120,
The plurality of first clinching points (121) are punched by the clinching facility (700), and the steel plate-concrete composite beam structure, characterized in that it is clinched to the lower portion of the vertical plate (210). The method of claim 1,
The lower plate 110 is
A plurality of second clinching points 111 are formed on the outer surface in the horizontal and forward directions,
The second clinching point 111 is punched out by the clinching facility 700 and clinched to the other surface of the lower reinforcing part 300,
The vertical plate 210 is
A plurality of third clinching points 211 are formed on the outer surface in vertical and forward directions,
The plurality of third clinching points (211) are punched by the clinching facility (700), and the steel plate-concrete composite beam structure, characterized in that it is clinched to the other surface of the vertical reinforcement (400). 4. The method of claim 3,
The lower reinforcement part 300 is
Vertical reinforcing parts 400 are respectively disposed on both sides so that the lower inclined part 320 is in surface contact with the vertical inclined part 420,
The lower reinforcement part 300 is
The lower reinforcing part 300 at the rear is separately disposed so as to be in front-back symmetrical surface contact, and the coupling cross-section of the lower reinforcing part 300 and the lower reinforcing part 300 disposed at the rear of the lower reinforcing part 300 is U-shaped formed in the form
The lower reinforcement part 300 disposed at the rear of the lower reinforcement part 300 is
A steel plate-concrete composite beam structure, characterized in that the vertical reinforcing parts 400 are separately disposed on both sides so that the lower inclined part 320 is in surface contact with the vertical inclined part 420 . The method of claim 1,
The reinforcing steel 500 is
A plurality of fourth clinching points 510 are formed on the front surface,
Steel sheet-concrete composite, characterized in that the plurality of fourth clinching points 510 are punched by the clinching facility 700 and clinched to one side of the horizontal portion 310 and the vertical portion 410 . beam structure. 6. The method of claim 5,
The reinforcing steel 500 is
Steel plate-concrete composite beam structure, characterized in that the R portion 520 with a radius of 5 mm or more is formed on the inner surface to prevent the concentration of load. delete

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