KR102575033B1 - Composite Beam Structure - Google Patents

Abstract

The present invention relates to a composite beam structure, and more particularly, by forming a side surface of a beam by fitting and combining a plurality of panels having special shapes without a separate formwork, a part of the load is dispersed to be able to respond, and has excellent assembly and workability It relates to a composite beam structure that can reduce the amount of steel used by using a relatively thin panel.

Description

Composite Beam Structure {Composite Beam Structure}

The present invention relates to a composite beam structure, and more particularly, by forming a side surface of a beam by fitting and combining a plurality of panels having special shapes without a separate formwork, a part of the load is dispersed to be able to respond, and has excellent assembly and workability It relates to a composite beam structure that can reduce the amount of steel used by using a relatively thin panel.

A beam structure is a structure that transmits the load of a building slab to columns and walls, and is generally constructed by installing a formwork at a construction site and pouring concrete into the formwork.

Conventional construction methods have cumbersome processes such as rebar assembly, formwork installation, concrete pouring, and formwork removal. Recently, in order to reduce the process and construction period, permanent formwork, which does not remove the formwork after pouring concrete, has begun to be used.

However, the conventional permanent formwork has a problem in that the initial construction cost is high because it must be assembled using equipment such as a crane due to its own weight. There are problems that arise.

That is, there is an urgent need to develop a composite beam structure that prevents deformation of the beam while using a panel having a thin thickness and has excellent workability.

The present invention forms the side of a beam by fitting a plurality of panels having special shapes without a separate formwork, thereby distributing some of the load to respond, while having excellent assembly and workability, and using a relatively thin panel. Its purpose is to provide a composite beam structure that can reduce the amount of steel used.

In order to solve the above problems, the present invention is a composite beam structure, a floor panel forming a bottom surface of the composite beam structure; A plurality of side start panels having a plate shape and disposed parallel to the longitudinal direction of the composite beam structure at four points corresponding to corners of the floor panel and coupled to the upper surface of the floor panel; Body having a plate shape; One end of the body portion is formed by extending in a direction perpendicular to the body portion, and the first bent portion formed by bending the end portion to face the body portion, protrudes in a wedge shape toward the inside along the height direction from the outer surface a first side portion provided with a first wedge formed by the first wedge, and a first wedge groove formed concavely along the height direction from the outer surface by the first wedge; And a second bent portion formed by extending the other end of the body portion in a direction perpendicular to the body portion, and having an end portion bent to face the body portion, and extending from the inner surface toward the outer direction along the height direction of the first bent portion. A second side surface portion provided with a second wedge formed by protruding in a form corresponding to the first wedge groove; and continuously disposed along the longitudinal direction of the composite beam structure on the top surface of the floor panel, so that both sides of the composite beam structure A plurality of side assembly panels forming a part; And a plurality of lower reinforcing panels having a trapezoidal plate shape in which the height increases from one end to the other end and disposed on and coupled to the lower outer surface of the plurality of side assembly panels, including the plurality of side start panels, the plurality of side panels. The side assembly panel and the plurality of lower reinforcing panels are coupled to each other to form both sides of the composite beam structure, providing a composite beam structure.

In some embodiments of the present invention, in one of the plurality of side assembly panels, a second wedge formed on the second side surface of the adjacently disposed side assembly panel is inserted into the first wedge groove formed on the first side surface. Or, the second wedge formed in the second side portion may be fitted in a form inserted into the first wedge groove formed in the first side portion of the adjacently disposed side assembly panel.

In some embodiments of the present invention, each of the plurality of side assembly panels is fitted with another side assembly panel disposed adjacent to each other to form a part of both side surfaces of the composite beam structure, and any one of the plurality of side assembly panels is A portion of the outer surface of the body portion is welded and coupled to a portion of the inner surface of any one of the plurality of side start panels, and one of the plurality of side start panels has a flange surface on the inner side of the plurality of lower reinforcing panels. It is welded and coupled to one side flange surface, and the inner surface of any one of the plurality of lower reinforcing panels may be welded and coupled to the lower outer surface of the plurality of side assembly panels.

In some embodiments of the present invention, each of the plurality of lower reinforcing panels, the first flange surface disposed on the plurality of side start panel side; And a second flange surface disposed on the side of the lower reinforcing panel disposed adjacently and having a height higher than the height of the first flange surface; including, on the outer surface of the lower portion of the plurality of side assembly panels, the first flange surface The ground surface is welded and coupled to one flange surface of the plurality of side start panels, and the second flange surface may be welded and coupled to each other.

In some embodiments of the present invention, each of the plurality of side assembly panels may have a thickness of 2 to 3 mm.

In some embodiments of the present invention, the composite beam structure has a plate shape, and is disposed parallel to the longitudinal direction of the composite beam structure on the upper side of the plurality of side start panels and the plurality of side assembly panels, and the lower surface is stud bolt A first upper panel coupled to the upper flange surfaces of the plurality of side start panels and the upper flange surfaces of the plurality of side assembly panels by; And a second upper panel having a plate shape, disposed perpendicular to the longitudinal direction of the composite beam structure on the upper side of the first upper panel, and having lower surfaces at both ends welded and coupled to portions of the upper surface of the first upper panel. can include

According to one embodiment of the present invention, a side assembly panel having a special shape in which a wedge is formed on one side and a wedge groove is formed on the other side is fitted and coupled along the longitudinal direction of the composite beam structure, and is continuously arranged to form a side assembly. It has excellent performance and workability, and can reduce the amount of steel used by using a side assembly panel with a thinner thickness, and since the side assembly panel itself forms a side surface without a separate formwork, part of the load is distributed to the side assembly panel itself. It is possible to exert an effect of providing a composite beam structure having excellent rigidity.

According to one embodiment of the present invention, by arranging the side assembly panel so that the bent shape is disposed inwardly of the composite beam structure, even if a side assembly panel having a relatively thin thickness is used, the shear force can be effectively resisted, and the bottom panel It can exert the effect of acting as a shear connector to resist horizontal shear.

According to one embodiment of the present invention, as both sides of the composite beam structure are formed by a plurality of side assembly panels formed with a relatively thin thickness, it is possible to exert an effect of reducing the amount of steel used.

According to an embodiment of the present invention, when forming both sides of a composite beam structure, by continuously arranging each of a plurality of side assembly panels in a fitting manner by fitting them into grooves, it is possible to improve assembly and workability, and to prevent leakage of concrete. It can exert an effective preventive effect.

According to one embodiment of the present invention, in a state in which each of the plurality of side assembly panels is fitted to each other, a part of the structure is coupled to the side start panel coupled to the bottom panel and the lower reinforcing panel, so that the concrete leaks can be effectively prevented.

According to one embodiment of the present invention, the lower reinforcing panel having a trapezoidal plate shape, the height of which increases from the beginning of the longitudinal direction of the composite beam structure toward the center, is coupled to the outside of the plurality of side assembly panels, so that the composite beam The ability to support the shear stress acting as a structure is improved, which can prevent local buckling, and can exhibit the effect of improving the deflection phenomenon and vibration resistance performance in composite beam structures.

1 schematically shows a perspective view of a beam structure according to an embodiment of the present invention.
Figure 2 schematically shows a cross-sectional view of a side assembly panel according to an embodiment of the present invention.
Figure 3 schematically shows an example in which a plurality of side assembly panels are coupled according to an embodiment of the present invention.
4 schematically illustrates an example in which a side start panel, a side assembly panel, and a lower reinforcing panel are coupled according to an embodiment of the present invention.
5 schematically illustrates a side view of a beam structure according to an embodiment of the present invention.
Figure 6 schematically shows a perspective view of a lower reinforcing panel according to an embodiment of the present invention.
7 schematically shows a front view of a composite beam structure according to an embodiment of the present invention.

In the following, various embodiments and/or aspects are disclosed with reference now to the drawings. In the following description, for purposes of explanation, numerous specific details are set forth in order to facilitate a general understanding of one or more aspects. However, it will also be appreciated by those skilled in the art that such aspect(s) may be practiced without these specific details. The following description and accompanying drawings describe in detail certain illustrative aspects of one or more aspects. However, these aspects are exemplary and some of the various methods in principle of the various aspects may be used, and the described descriptions are intended to include all such aspects and their equivalents.

"Example", "example", "aspect", "exemplary", etc., used herein should not be construed as preferring or advantageous to any aspect or design being described over other aspects or designs. .

In addition, the term “or” is intended to mean an inclusive “or” rather than an exclusive “or”. That is, unless otherwise specified or clear from the context, “X employs A or B” is intended to mean one of the natural inclusive substitutions. That is, X uses A; X uses B; Or, if X uses both A and B, "X uses either A or B" may apply to either of these cases. Also, the term "and/or" as used herein should be understood to refer to and include all possible combinations of one or more of the listed related items.

Also, the terms "comprises" and/or "comprising" mean that the feature and/or element is present, but excludes the presence or addition of one or more other features, elements and/or groups thereof. It should be understood that it does not.

In addition, terms including ordinal numbers, such as first and second, may be used to describe various components, but the components are not limited by the terms. These terms are only used for the purpose of distinguishing one component from another. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element, without departing from the scope of the present invention. The terms and/or include any combination of a plurality of related recited items or any of a plurality of related recited items.

In addition, in the embodiments of the present invention, unless otherwise defined, all terms used herein, including technical or scientific terms, are generally understood by those of ordinary skill in the art to which the present invention belongs. has the same meaning as Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the embodiments of the present invention, an ideal or excessively formal meaning not be interpreted as

Conventional composite beam structures are constructed by placing concrete inside the formwork using a formwork or permanent formwork, and removing the formwork when curing is completed, or curing the formwork without removing the permanent formwork.

However, in the case of using a formwork as in the prior art, the process is cumbersome because it must be assembled and dismantled, and in the case of using a permanent formwork, the initial construction cost is high due to its heavy weight, and the permanent formwork with a relatively thin thickness has resistance to concrete casting. There is a problem that the composite beam structure is deformed due to the low level.

In order to solve this problem, the present invention formed the composite beam structure 1 using a panel that can be assembled in a fitting method without using a separate formwork.

More specifically, the present invention is a composite beam structure (1), wherein the composite beam structure (1) is formed by combining panels disposed on the bottom and side surfaces, in particular, some of the panels disposed on the side are wedged on one side Is formed and a wedge groove is formed on the other side, so it is fixed to the panel disposed on both ends in a state of being fitted through the wedge and wedge groove to the other adjacent panel, and the panels disposed on the side are on the bottom surface It is characterized by having a structure fixed to the placed panel. Due to this structure, the composite beam structure 1 of the present invention can be formed with a relatively thin thickness of 2 to 3 mm, and the panel disposed on the side can effectively resist the shear force even if it is formed with a relatively thin thickness. It can be constructed to improve assembly and workability.

That is, the present invention is excellent in assembly and workability, and has a thinner side surface by continuously arranging the side assembly panel 300 having a special shape by fitting and coupling along the longitudinal direction of the composite beam structure 1 to form a side surface. It is possible to reduce the amount of steel used by using the assembly panel 300, and since the side assembly panel 300 itself forms a side surface without a separate formwork, a part of the load is distributed to the side assembly panel 300 itself, increasing the stiffness. An excellent composite beam structure 1 can be provided.

Hereinafter, the composite beam structure 1 according to an embodiment of the present invention will be described in detail.

1 schematically shows a perspective view of a composite beam structure 1 according to an embodiment of the present invention.

A composite beam structure 1 according to an embodiment of the present invention includes a floor panel 100 forming a bottom surface of the composite beam structure 1; A plurality of plates having a plate shape and disposed parallel to the longitudinal direction of the composite beam structure 1 at four points corresponding to the corners of the floor panel 100 and coupled to the upper surface of the floor panel 100. side start panel 200; A plurality of side assembly panels 300 continuously disposed on the upper surface of the floor panel 100 along the longitudinal direction of the composite beam structure 1 to form part of both side surfaces of the composite beam structure 1; and a plurality of lower reinforcing panels 400 having a trapezoidal plate shape in which the height increases from one end to the other end, and disposed on and coupled to the lower outer surface of the plurality of side assembly panels 300.

The floor panel 100 corresponds to a configuration corresponding to the bottom surface of the composite beam structure 1.

As shown in FIG. 1, the floor panel 100 has a plate shape, and preferably has a length corresponding to the longitudinal direction of the composite beam structure 1.

In addition, the bottom panel 100 has a bottom through-hole 110 formed at the end side, and the composite beam structure 1 is combined with the composite beam structure 1 disposed adjacent through the bottom through-hole 110. ), or may be coupled to other structures arranged adjacently to fix the position of the composite beam structure (1).

The side start panel 200 is disposed at the starting point of the side of the composite beam structure 1, and corresponds to a configuration supporting a portion of the side formed by a plurality of side assembly panels 300.

As shown in Figure 1, the side start panel 200 is arranged parallel to the longitudinal direction of the composite beam structure 1 at four points corresponding to the corners of the floor panel 100, the bottom surface It may be coupled to the upper surface of the panel 100 .

In addition, the side start panel 200 has a start panel through-hole 210 formed at the end side, so when the entire length of the composite beam structure 1 is extended, it is placed adjacently through the start panel through-hole 210. By combining with the composite beam structure 1 to be, the composite beam structure 1 can be supplemented so that it can be extended more stably.

As shown in FIG. 1, the side start panel 200 has a rectangular plate shape with relatively long sides in the height direction compared to the sides in the longitudinal direction.

The side assembly panel 300 is a configuration serving as a web, and forms most of the side of the composite beam structure 1.

As shown in FIG. 1, the side assembly panel 300 has a form in which a plurality of pieces are continuously arranged along the longitudinal direction of the composite beam structure 1. The side assembly panel 300 will be described in more detail in drawings to be described later.

As shown in FIG. 1, the side assembly panel 300 has a shape in which a side in a height direction is relatively long compared to a side in a longitudinal direction.

That is, as shown in FIG. 1, in the composite beam structure 1, the bottom panel 100 forms the bottom surface, and a plurality of side assembly panels 300 are continuously along the longitudinal direction of the composite beam structure 1. It may have a structure that is combined with the side start panel 200 disposed on both sides in an arranged state to form a side surface. The side surface includes two side surfaces, and each of the two side surfaces is disposed parallel to the longitudinal direction of the composite beam structure 1 on the upper surface of the floor panel 100 and is disposed to face each other, thereby forming a composite beam structure (1). ) It is preferable to form both sides of the.

In addition, in the composite beam structure 1, a plurality of lower reinforcing panels 400 may be disposed on the lower outer surface of the plurality of side assembly panels 300 in the above structure. The plurality of lower reinforcing panels 400 correspond to a configuration that prevents the central portion of the composite beam structure 1 from sagging.

More specifically, each of the plurality of lower reinforcing panels 400 has a trapezoidal plate shape in which the height increases from one end to the other end, and the end side having a relatively high height faces the center side of the composite beam structure 1. It has a shape that becomes the lower outer surface of the plurality of side assembly panels 300. In addition, although the plurality of lower reinforcing panels 400 are not shown in FIG. 1, they are disposed on the lower outer surfaces of all of the plurality of side assembly panels 300 disposed on both sides of the composite beam structure 1, and are disposed on both sides. It is preferable that all of the plurality of side assembly panels 300 are arranged in a form in which the height increases from the beginning of the composite beam structure 1 in the longitudinal direction toward the center.

That is, the plurality of lower reinforcing panels 400 have the shape of a trapezoidal plate whose height increases toward the center of the composite beam structure 1 as described above and the relatively high end side of each of the two lower reinforcing panels 400 as shown in FIG. By the arrangement form to be disposed on the center side of the composite beam structure 1, it is possible to effectively respond to the load applied to the center of the composite beam structure 1, thereby preventing the central part of the composite beam structure 1 from sagging or local buckling It can be prevented.

Preferably, the structure in which the plurality of lower reinforcing panels 400 are coupled to the composite beam structure 1 can effectively prevent the leakage of concrete in the composite beam structure 1, and the plurality of side assembly panels A structure capable of effectively supporting the shear stress acting on the composite beam structure 1 formed by the 300 and the plurality of side start panels 200 to prevent local buckling and improve deflection and vibration resistance performance corresponds to

2 schematically shows a cross-sectional view of a side assembly panel 300 according to an embodiment of the present invention.

The plurality of side assembly panels 300 according to an embodiment of the present invention includes a body portion 310 having a plate shape; One end of the body portion 310 is formed by extending in a direction perpendicular to the body portion 310, and the first bent portion 321 formed by bending the end portion to face the body portion 310, the outer surface A first wedge 322 formed by protruding in a wedge shape toward the inward direction along the height direction, and a first wedge groove 323 formed concavely along the height direction from the outer surface by the first wedge 322 Provided first side portion 320; And a second bent portion 331 formed by extending the other end of the body portion 310 in a direction perpendicular to the body portion 310 and bending the end portion to face the body portion 310, and A second side surface portion 330 provided with a second wedge 332 formed by protruding from the inner surface in a shape corresponding to the first wedge groove 323 toward the outer direction along the height direction; may include.

The height direction corresponds to a direction corresponding to the height direction of the composite beam structure (1).

As shown in FIG. 2, each of the plurality of side assembly panels 300 corresponds to a channel having a U-shaped cross section as a whole by the body portion 310, the first side portion 320, and the second side portion 330. It is a composition that

Each of the plurality of side assembly panels 300 has the first side portion 320 and the second side portion 330 so that the outer surface of the body portion 310 forms the outer surface of the composite beam structure 1. It is preferable to be disposed inside the composite beam structure 1, and by the first bent part 321 and the second bent part 331 provided on the first side part 320 and the second side part 330, respectively It is possible to prevent bending of the body 310 in the longitudinal direction.

In each of the plurality of side assembly panels 300, the first side portion 320 is provided with a first wedge 322 and a first wedge groove 323 formed by the first wedge 322, and the second The side portion 330 has a structure in which a second wedge 332 formed in a shape corresponding to the first wedge groove 323 is provided. Such a structure corresponds to a structure in which a plurality of side assembly panels 300 of the present invention are fitted to each other to form a solid side surface. That is, each of the plurality of side assembly panels 300 is fitted and coupled to another side assembly panel 300 disposed adjacent to each other through the first wedge groove 323 and the second wedge 332 to form a composite beam structure 1 ) can form the side of

In addition, in one embodiment of the present invention, each of the plurality of side assembly panels 300 may have a thickness of 2 to 3 mm.

The conventional composite beam structure 1 has a problem in that it is easily deformed due to an increase in construction cost due to a large amount of steel usage due to a configuration having a thickness of about 9 mm or a configuration having a thin thickness.

In the present invention, it is possible to effectively reduce the amount of steel used by forming the thickness of the plurality of side assembly panels 300 constituting the composite beam structure 1 to 2 to 3 mm, and preferably, each of the plurality of side assembly panels 300 The body portion 310 having a thickness of 2 to 3 mm, the first side portion 320, and the second side portion 330 may be included.

In this way, by arranging the side assembly panel 300 so that the shape bent to the inside of the composite beam structure 1 is disposed, even if the side assembly panel 300 having a relatively thin thickness is used, it is possible to effectively resist the shear force, and the bottom surface It can exert an effect that can serve as a shear connector to resist the horizontal shear of the panel 100.

In addition, in one embodiment of the present invention, as both sides of the composite beam structure 1 are formed by a plurality of side assembly panels 300 formed with a relatively thin thickness, it is possible to exert an effect of reducing the amount of steel used.

3 schematically illustrates an example in which a plurality of side assembly panels 300 are coupled according to an embodiment of the present invention.

Any one of the plurality of side assembly panels 300 according to an embodiment of the present invention is disposed adjacent to the first wedge groove 323 formed in the first side portion 320, of the side assembly panel 300. The second wedge 332 formed on the second side portion 330 is fitted in the form of being inserted, or the second wedge 332 formed on the second side portion 330 is disposed adjacent to the side assembly panel 300. It may be fitted in a form inserted into the first wedge groove 323 formed in the first side portion 320 .

As shown in FIG. 3(a), one of the two side assembly panels 300 and 300' (300) is the first side assembly panel 300' in which the second side part 330 is disposed adjacent to each other. It may come into contact with the side portion 320'. In this state, the second wedge 332 formed on the second side portion 330 of either one of the two side assembly panels 300 is the first side portion 320 of the adjacent side assembly panels 300'. ') can be inserted into and seated inside the first wedge groove 323' formed in), and the movement of the second wedge 332 is restricted by the shape of the first wedge groove 323'. Thus, the two side assembly panels 300 and 300' are fitted into each other.

In one embodiment of the present invention, any one of the two side assembly panels 300 and 300' (300) is a second side part ( 330'). In this state, the first wedge groove 323 formed in the first side portion 320 of any one 300 of the two side assembly panels 300 and 300' is disposed adjacent to the inner side assembly panel ( 300') may be disposed in a form in which the second wedge 332' formed on the second side portion 330' is seated, and the second wedge 332' is formed by the shape of the first wedge groove 323. is limited in movement so that the two side assembly panels 300 and 300' are fitted into each other.

In addition, in one embodiment of the present invention, in a state where any one of the plurality of side assembly panels 300 and the side assembly panel 300' disposed adjacent to each other are fitted, the plurality of side assembly panels 300 A part of any one of them may be fixed by spot welding to a part of the adjacent side assembly panel 300'.

For example, one of the two side assembly panels 300 and 300' abuts the first side part 320' of the side assembly panel 300' on which the second side part 330 is adjacently disposed. In this case, in the partially enlarged view of FIG. 3(a), the upper bending point 330.1 and the lower bending point 330.2 of the second side part 330 of either one of the two side assembly panels 300 are adjacent to each other. The upper bent point 320.1' and the lower bent point 320.2' of the first side portion 320' of the side assembly panel 300' arranged so as to be spot welded and fixed.

After the plurality of side assembly panels 300 fitted in this way are disposed on the upper surface of the bottom panel 100 as shown in FIG. 3 (b), each lower flange surface of the bottom panel 100 It is partially welded to the upper surface so that its position can be fixed. Since the welding corresponds to spot welding, it is possible to reduce the manufacturing cost by reducing the number of welded parts compared to the related art. In addition, the plurality of side assembly panels 300 may be welded to a portion of the inner surface of the side start panel 200 disposed on both sides of a portion of the outer surface of the body portion 310 to fix its position. At this time, the side start panel 200 is preferably in a state where the lower flange surface is welded to the upper surface of the bottom panel 100.

That is, the worker constructing the composite beam structure 1 of the present invention, after combining the plurality of side assembly panels 300 in the fitting method through the second wedge 332 and the first wedge groove 323 at the site, It can be constructed by welding only a portion of the plurality of side assembly panels 300 to the bottom panel 100 and the side start panel 200. In one embodiment of the present invention, the plurality of side assembly panels 300 may be supplied to the site in a partially fitted state.

As such, in one embodiment of the present invention, when forming both sides of the composite beam structure 1, assemblability and workability can be improved by continuously arranging a plurality of side assembly panels 300 in a fitting manner by fitting each of them into grooves, , it can exert the effect of effectively preventing leakage of concrete.

4 schematically shows an example in which a side start panel 200, a side assembly panel 300, and a lower reinforcing panel 400 are combined according to an embodiment of the present invention.

As described above, each of the plurality of side assembly panels 300 is fitted with another side assembly panel 300 disposed adjacent to each other to form part of both sides of the composite beam structure 1.

When the plurality of side assembly panels 300 are disposed on the upper surface of the bottom panel 100 in a state in which they are fitted to each other, as shown in FIG. 4, the plurality of side assembly panels 300 have an outer surface. It is preferable that a part of is arranged so as to be in contact with a part of the inner surface of the side start panel 200 disposed on both sides and coupled. In one embodiment of the present invention, each of the two side assembly panels 300 disposed at both ends among the plurality of side assembly panels 300 is the inner surface of the side start panel 200 in which a part of the outer surface is adjacently disposed. is bound to a part of

In the case where the lower reinforcement panel 400 is disposed on the lower outer surface of the plurality of side assembly panels 300 in a state where the side start panel 200 is coupled to the side assembly panel 300, it is shown in FIG. As is done, the lower reinforcing panel 400 is preferably arranged and coupled such that one side flange surface is in contact with the one side flange surface of the side start panel 200.

Each of the plurality of side assembly panels 300 may be coupled to the side start panel 200 after a worker assembles them in a field fitting method. Alternatively, a plurality of side assembly panels 300 assembled by the fitting method are supplied to the site, and the operator places the plurality of side assembly panels 300 assembled by the fitting method into the side start panel 200. can be combined with

At this time, the composite beam structure 1 of the present invention, except for the fitting of each of the plurality of side assembly panels 300, the plurality of side assembly panels 300, the side start panel 200, and the lower part Each of the reinforcing panels 400 may be formed by being combined with a welding method. That is, the plurality of side assembly panels 300 have lower flange surfaces welded to the upper surface of the bottom panel 100, and some of the outer surfaces of the side assembly panels 300 disposed at both ends of the plurality of side assembly panels 300. The lower flange surface is welded to a portion of the inner surface of the side start panel 200 welded to the upper surface of the bottom panel 100, and the side start panel 200 has one flange surface on one side of the lower reinforcing panel 400. It is welded to the flange surface, and the inner surface of the lower reinforcing panel 400 may be welded to the lower outer surface of the plurality of side assembly panels 300.

Preferably, according to one embodiment of the present invention, each of the plurality of side assembly panels 300 is fitted and coupled with another side assembly panel 300 disposed adjacent to each other to part of both sides of the composite beam structure 1. Forming, and any one of the plurality of side assembly panels 300 is coupled by welding a portion of the outer surface of the body portion 310 to a portion of the inner surface of any one of the plurality of side start panels 200, Any one of the plurality of side start panels 200 has the inner side flange surface welded and coupled to one flange surface of any one of the plurality of lower reinforcing panels 400, and the plurality of lower reinforcing panels 400 ) Of which the inner surface may be welded and coupled to the lower outer surface of the plurality of side assembly panels 300.

As such, in one embodiment of the present invention, a plurality of side assembly panels 300, in a state where each is fitted to each other, a part of the side start panel 200 coupled to the bottom panel 100 and the lower reinforcing panel 400 It has a structure that is coupled to, so it can exert an effect that can effectively prevent the leakage of concrete.

5 schematically shows a side view of a composite beam structure 1 according to an embodiment of the present invention.

The composite beam structure 1 according to an embodiment of the present invention has a plate shape, and the plurality of side start panels 200 and the plurality of side assembly panels 300 on the upper side of the composite beam structure 1 A first upper panel 500 disposed parallel to the longitudinal direction and coupled to the upper flange surfaces of the plurality of side start panels 200 and the upper flange surfaces of the plurality of side assembly panels 300 by stud bolts. ); And has a plate shape, and is disposed perpendicular to the longitudinal direction of the composite beam structure 1 on the upper side of the first top panel 500, and the lower surface at both ends is welded to a portion of the upper surface of the first top panel 500 A coupled second top panel (not shown) may be further included.

As shown in FIG. 5, the composite beam structure 1 includes a first top panel 500. The first upper panel 500 is a configuration that exhibits stiffness against bending acting on the composite beam structure 1, and the lower surface is a plurality of side start panels 200 and a plurality of side assembly panels 300, each of the upper plan It is arranged and coupled so as to contact the ground. At this time, the first top panel 500 is preferably disposed parallel to the longitudinal direction of the composite beam structure 1.

The first top panel 500 may correspond to a configuration supporting a deck plate. In one embodiment of the present invention, the composite beam structure 1 may arrange the first top panel 500 to form a slab on the upper side.

Also, although not shown in FIG. 5, the composite beam structure 1 includes a second top panel (not shown). The second top panel (not shown) is also configured to exhibit rigidity against bending acting on the composite beam structure 1, and the lower surface at both ends is arranged and coupled so as to contact a portion of the upper surface of the first top panel 500 . At this time, the second upper panel (not shown) is preferably disposed perpendicular to the longitudinal direction of the composite beam structure 1, and may be disposed in plurality at a predetermined interval.

That is, the composite beam structure 1 of the present invention further includes a first upper panel 500 disposed parallel to the longitudinal direction and a second upper panel (not shown) disposed perpendicular to the longitudinal direction, thereby improving rigidity. there is.

6 schematically shows a perspective view of a lower reinforcing panel 400 according to an embodiment of the present invention.

Each of the plurality of lower reinforcing panels 400 according to an embodiment of the present invention includes a first flange surface 410 disposed on the side of the plurality of side start panels 200; and a second flange surface 420 disposed on the side of the adjacent lower reinforcing panel 400 and having a height higher than that of the first flange surface 410.

Each of the plurality of lower reinforcing panels 400 is provided with a first flange surface 410 and a second flange surface 420 at both ends. At this time, the first flange surface 410 has a height of approximately h1 while the second flange surface 420 has a height of approximately h2, so that each of the plurality of lower reinforcing panels 400 is the first flange surface. It may have a trapezoidal plate shape in which the height increases from 410 toward the second flange surface 420 .

The shape of the lower reinforcing panel 400 corresponds to a shape that can effectively respond to the load applied to the center of the composite beam structure 1. In particular, when the second flange surfaces 420 of each of the two lower reinforcing panels 400 having the above shape are arranged to face each other, the effect of responding to the load can be further maximized.

7 schematically shows a front view of a composite beam structure 1 according to an embodiment of the present invention.

Each of the plurality of lower reinforcing panels 400 according to an embodiment of the present invention, on the lower outer surface of the plurality of side assembly panels 300, the first flange surface 410 is the plurality of side start panels It is welded and coupled to one flange surface of 200, and the second flange surface 420 may be welded and coupled to each other.

As shown in FIG. 7, in one embodiment of the present invention, the composite beam structure 1 is coupled by placing two lower reinforcing panels 400 and 400' on the outer surface of a plurality of side assembly panels 300. can At this time, the lower reinforcing panel 400 disposed on the left side with respect to FIG. 7 has a first flange surface 410 facing the side start panel 200 side and a second flange surface 420 disposed on the right side with reference to FIG. 7 The lower reinforcing panel 400' disposed on the right side is also disposed so that the first flange surface 410' corresponds to the side start panel 200'. ) side and the second flange surface 420' may be disposed and coupled so that the lower reinforcing panel 400 side disposed on the left side faces.

The coupling form of the plurality of lower reinforcing panels 400 can reinforce the center side of the composite beam structure 1 more than the end side of the composite beam structure 1, effectively preventing local buckling of the composite beam structure 1 and sagging and vibration resistance performance. Corresponds to a shape that can be improved.

More specifically, the plurality of lower reinforcing panels 400 serve to resist bending due to the pouring load together with the floor panel 100 during the construction of the composite beam structure 1 by the combination form, and the beam at the time of completion It can improve deflection and improve vibration resistance performance. In addition, by combining a plurality of lower reinforcing panels 400 having the above shape on the side of the side assembly panel 300 serving as a web, the composite beam structure 1 can support shear stress while being bent Improvement in performance This can prevent local buckling.

Preferably, in one embodiment of the present invention, the lower reinforcing panel 400 having a trapezoidal plate shape in which the height increases from the beginning of the longitudinal direction of the composite beam structure 1 toward the center, the plurality of side assembly panels 300 ), it is possible to prevent local buckling by improving the ability to support the shear stress acting on the composite beam structure (1), and to resist deflection and vibration in the composite beam structure (1). It can exert an effect that can improve performance.

According to one embodiment of the present invention, a side assembly panel having a special shape in which a wedge is formed on one side and a wedge groove is formed on the other side is fitted and coupled along the longitudinal direction of the composite beam structure, and is continuously arranged to form a side assembly. It has excellent performance and workability, and can reduce the amount of steel used by using a side assembly panel with a thinner thickness, and since the side assembly panel itself forms a side surface without a separate formwork, part of the load is distributed to the side assembly panel itself. It is possible to exert an effect of providing a composite beam structure having excellent rigidity.

According to one embodiment of the present invention, by arranging the side assembly panel so that the bent shape is disposed inwardly of the composite beam structure, even if a side assembly panel having a relatively thin thickness is used, the shear force can be effectively resisted, and the bottom panel It can exert the effect of acting as a shear connector to resist horizontal shear.

According to one embodiment of the present invention, as both sides of the composite beam structure are formed by a plurality of side assembly panels formed with a relatively thin thickness, it is possible to exert an effect of reducing the amount of steel used.

According to an embodiment of the present invention, when forming both sides of a composite beam structure, by continuously arranging each of a plurality of side assembly panels in a fitting manner by fitting them into grooves, it is possible to improve assembly and workability, and to prevent leakage of concrete. It can exert an effective preventive effect.

According to one embodiment of the present invention, in a state in which each of the plurality of side assembly panels is fitted to each other, a part of the structure is coupled to the side start panel coupled to the bottom panel and the lower reinforcing panel, so that the concrete leaks can be effectively prevented.

According to one embodiment of the present invention, the lower reinforcing panel having a trapezoidal plate shape, the height of which increases from the beginning of the longitudinal direction of the composite beam structure toward the center, is coupled to the outside of the plurality of side assembly panels, so that the composite beam The ability to support the shear stress acting as a structure is improved, which can prevent local buckling, and can exhibit the effect of improving the deflection phenomenon and vibration resistance performance in composite beam structures.

As described above, although the embodiments have been described with limited examples and drawings, those skilled in the art can make various modifications and variations from the above description. For example, the described techniques may be performed in an order different from the method described, and/or the components of the described system, structure, device, circuit, etc. may be combined or combined in a different form than the method described, or other components may be used. Or even if it is replaced or substituted by equivalents, appropriate results can be achieved. Therefore, other implementations, other embodiments, and equivalents of the claims are within the scope of the following claims.

1: composite beam structure
100: bottom panel 110: bottom through hole
200: side start panel 210: start panel through hole
300: side assembly panel 310: body part
320: first side portion 320.1: upper bending point
320.2: lower bending point 321: first bending part
322: first wedge 323: first wedge groove
330: second side part 330.1 upper bending point
330.2: lower bending point 331: second bending part
332: second wedge
400: lower reinforcement panel
410: first flange surface 420: second flange surface
500: first top panel

Claims (6)

As a composite beam structure,
a floor panel forming a bottom surface of the composite beam structure;
A plurality of side start panels having a plate shape and disposed parallel to the longitudinal direction of the composite beam structure at four points corresponding to corners of the floor panel and coupled to the upper surface of the floor panel;
Body having a plate shape; One end of the body portion is formed by extending in a direction perpendicular to the body portion, and the first bent portion formed by bending the end portion to face the body portion, protrudes in a wedge shape toward the inside along the height direction from the outer surface a first side portion provided with a first wedge formed by the first wedge, and a first wedge groove formed concavely along the height direction from the outer surface by the first wedge; And a second bent portion formed by extending the other end of the body portion in a direction perpendicular to the body portion, and having an end portion bent to face the body portion, and extending from the inner surface toward the outer direction along the height direction of the first bent portion. A second side surface portion provided with a second wedge formed by protruding in a form corresponding to the first wedge groove; and continuously disposed along the longitudinal direction of the composite beam structure on the top surface of the floor panel, so that both sides of the composite beam structure A plurality of side assembly panels forming a part; and
A plurality of lower reinforcing panels having a trapezoidal plate shape in which the height increases from one end to the other end and coupled to the lower outer surface of the plurality of side assembly panels,
The plurality of side start panels, the plurality of side assembly panels, and the plurality of lower reinforcing panels are coupled to each other to form both sides of the composite beam structure,
Any one of the plurality of side assembly panels,
The second wedge formed on the second side surface of the adjacently disposed side assembly panel is inserted into the first wedge groove formed on the first side surface, or
A composite beam structure in which a second wedge formed on a second side portion is fitted into a first wedge groove formed on a first side portion of an adjacently disposed side assembly panel.
delete As a composite beam structure,
a floor panel forming a bottom surface of the composite beam structure;
A plurality of side start panels having a plate shape and disposed parallel to the longitudinal direction of the composite beam structure at four points corresponding to corners of the floor panel and coupled to the upper surface of the floor panel;
Body having a plate shape; One end of the body portion is formed by extending in a direction perpendicular to the body portion, and the first bent portion formed by bending the end portion to face the body portion, protrudes in a wedge shape toward the inside along the height direction from the outer surface a first side portion provided with a first wedge formed by the first wedge, and a first wedge groove formed concavely along the height direction from the outer surface by the first wedge; And a second bent portion formed by extending the other end of the body portion in a direction perpendicular to the body portion, and having an end portion bent to face the body portion, and extending from the inner surface toward the outer direction along the height direction of the first bent portion. A second side surface portion provided with a second wedge formed by protruding in a form corresponding to the first wedge groove; and continuously disposed along the longitudinal direction of the composite beam structure on the top surface of the floor panel, so that both sides of the composite beam structure A plurality of side assembly panels forming a part; and
A plurality of lower reinforcing panels having a trapezoidal plate shape in which the height increases from one end to the other end and coupled to the lower outer surface of the plurality of side assembly panels,
The plurality of side start panels, the plurality of side assembly panels, and the plurality of lower reinforcing panels are coupled to each other to form both sides of the composite beam structure,
Each of the plurality of side assembly panels is fitted with another side assembly panel disposed adjacent to each other to form part of both side surfaces of the composite beam structure,
In one of the plurality of side assembly panels, a portion of the outer surface of the body portion is welded and coupled to a portion of the inner surface of any one of the plurality of side start panels,
In one of the plurality of side start panels, the inner side flange surface is welded and coupled to one flange surface of any one of the plurality of lower reinforcing panels,
A composite beam structure in which an inner surface of one of the plurality of lower reinforcing panels is welded and coupled to the lower outer surface of the plurality of side assembly panels.
As a composite beam structure,
a floor panel forming a bottom surface of the composite beam structure;
A plurality of side start panels having a plate shape and disposed parallel to the longitudinal direction of the composite beam structure at four points corresponding to corners of the floor panel and coupled to the upper surface of the floor panel;
Body having a plate shape; One end of the body portion is formed by extending in a direction perpendicular to the body portion, and the first bent portion formed by bending the end portion to face the body portion, protrudes in a wedge shape toward the inside along the height direction from the outer surface a first side portion provided with a first wedge formed by the first wedge, and a first wedge groove formed concavely along the height direction from the outer surface by the first wedge; And a second bent portion formed by extending the other end of the body portion in a direction perpendicular to the body portion, and having an end portion bent to face the body portion, and extending from the inner surface toward the outer direction along the height direction of the first bent portion. A second side surface portion provided with a second wedge formed by protruding in a form corresponding to the first wedge groove; and continuously disposed along the longitudinal direction of the composite beam structure on the top surface of the floor panel, so that both sides of the composite beam structure A plurality of side assembly panels forming a part; and
A plurality of lower reinforcing panels having a trapezoidal plate shape in which the height increases from one end to the other end and coupled to the lower outer surface of the plurality of side assembly panels,
The plurality of side start panels, the plurality of side assembly panels, and the plurality of lower reinforcing panels are coupled to each other to form both sides of the composite beam structure,
Each of the plurality of lower reinforcing panels,
A first flange surface disposed on the side of the plurality of side start panels; and
A second flange surface disposed on the adjacent lower reinforcement panel side and having a height higher than the height of the first flange surface; including,
On the lower outer surface of the plurality of side assembly panels, the first flange surface is welded and coupled to one flange surface of the plurality of side start panels, and the second flange surface is welded and coupled to each other. Composite beam structure.
The method of claim 1,
Each of the plurality of side assembly panels has a thickness of 2 to 3 mm, composite beam structure.
As a composite beam structure,
a floor panel forming a bottom surface of the composite beam structure;
A plurality of side start panels having a plate shape and disposed parallel to the longitudinal direction of the composite beam structure at four points corresponding to corners of the floor panel and coupled to the upper surface of the floor panel;
Body having a plate shape; One end of the body portion is formed by extending in a direction perpendicular to the body portion, and the first bent portion formed by bending the end portion to face the body portion, protrudes in a wedge shape toward the inside along the height direction from the outer surface a first side portion provided with a first wedge formed by the first wedge, and a first wedge groove formed concavely along the height direction from the outer surface by the first wedge; And a second bent portion formed by extending the other end of the body portion in a direction perpendicular to the body portion, and having an end portion bent to face the body portion, and extending from the inner surface toward the outer direction along the height direction of the first bent portion. A second side surface portion provided with a second wedge formed by protruding in a form corresponding to the first wedge groove; and continuously disposed along the longitudinal direction of the composite beam structure on the top surface of the floor panel, so that both sides of the composite beam structure A plurality of side assembly panels forming a part; and
A plurality of lower reinforcing panels having a trapezoidal plate shape in which the height increases from one end to the other end and coupled to the lower outer surface of the plurality of side assembly panels,
The plurality of side start panels, the plurality of side assembly panels, and the plurality of lower reinforcing panels are coupled to each other to form both sides of the composite beam structure,
The composite beam structure,
It has a plate shape, and is arranged parallel to the longitudinal direction of the composite beam structure at the upper side of the plurality of side start panels and the plurality of side assembly panels, and the lower surface is connected to the upper flange surface of the plurality of side start panels by stud bolts. a first upper panel coupled to upper flange surfaces of the plurality of side assembly panels; and
A second upper panel having a plate shape, disposed perpendicular to the longitudinal direction of the composite beam structure on the upper side of the first upper panel, and having lower surfaces at both ends welded and coupled to a portion of the upper surface of the first upper panel; , composite beam structure.

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