KR20190097753A - Composite beam structure - Google Patents

Abstract

The present invention relates to a composite beam structure, which is formed by mixing an iron plate, a reinforcing bar and concrete, is easy for placing the concrete as the iron plate is bolt-fixed to the adjacent iron plate so that an upper opening having an opened cross section in an upper direction is formed while the bent iron plate and the truss reinforcing bar are connected to each other, is excellent in bonding force and structured property of the concrete since the placed concrete is not separated by the iron plate and the truss reinforcing bar is arranged therein so as to be integrally coupled thereto after curing, enables light weight by reducing consumption of the iron plate, enables light weight by reducing a load of the whole building by using the iron plate without using an iron frame. Moreover, the quality of the iron plate is uniform since a bolt hole is mechanically perforated on the iron plate and the iron plate is bent in a factory in advance. In addition, quality becomes uniform, personnel expenses become inexpensive, construction costs are reduced, and a construction period is shortened since assembly by untrained people is possible without being required for trained people.

Description

Composite beam structure

The present invention relates to a composite beam structure, and more specifically, it is made of a composite of iron plate, reinforcing bar and concrete, the bent iron plate and the truss reinforcing the iron plate is connected to the adjacent iron plate bolted to the cross section open in the upper direction Since the upper opening is formed to facilitate the pouring of concrete, the poured concrete is not separated by the iron plate, the truss reinforcement is disposed therein to be integrally bonded after curing and excellent bonding strength and structural properties, Light weight can be reduced by reducing the consumption of steel plate, and it is possible to reduce the weight of the entire building by using steel plate without using steel frame, and bending of steel plate and drilling of bolt hole formed on steel plate can be performed in the factory beforehand. It is manufactured to be formed so that the quality of the iron plate is uniform, Just a simple bolt assembly's serial assembly is capable of being sigongbi savings relates to a composite beam structure capable of shortening the construction period.

In general, in the case of building a building, an appropriate structure type is selected and constructed from the viewpoints of securing the use purpose, function, external force, etc. of the building, and economic feasibility. Such a structure type is conventionally made of wood structure, reinforced concrete structure, Various structural systems are known and applied, including steel concrete structures.

As is well known, the reinforced concrete structure is a structure in which reinforcing bars are reinforced and integrated with each other so as to complement the advantages and disadvantages of each of the reinforcing bars and concretes, which is not limited to compressive strength. In order to reinforce the weak point of the relatively weak concrete, reinforcing bar is placed in the area where the shear and tensile stresses of the concrete are applied so that these materials can be combined to resist the external force. Since the reinforced concrete structure is made of concrete, which is a relatively inexpensive material, as a main material, it has the advantages of low construction cost and high economical efficiency, as well as high formability, high fire resistance, and high durability. It is widely used and is still one of the most commonly used structural systems.

In the reinforced concrete structure, when the beam member, which is one of the main structural members, is formed, the reinforcing steel is generally reinforced by the reinforcing bar and the stirrup reinforcing steel beam in the concrete beam. In this case, the concrete bears the compressive stress, the main reinforcing bar bears the tensile stress, and the shear stress bears the stubble reinforcing bars so that the external force can be reasonably shared by the combined action of these concrete and reinforcing bars.

The beam member of the conventional reinforced concrete structure, as shown in the cross-sectional view shown in Figure 1, the conventional beam (5) is formed of a concrete member (1) and the concrete member (1) formed to extend over the entire length of the beam It includes a main reinforcing bar (2) installed in the lower portion, and a stirrup reinforcing bar (3) for coupling with the slab (not shown in the figure) to resist shear stress.

The beam (5) is made by pouring concrete in the field after forming the formwork (not shown in the drawing) and installing the main reinforcing bar (2) and stub steel (3), a lot of formwork is required for the installation and removal of the formwork There is a problem in that it takes time and cost, and since the concrete 1 is formed over the entire cross section of the beam 5, there is also a problem that the load of the entire building is large due to the weight of the concrete. Moreover, the beam 5 of the reinforced concrete structure of such a general type requires the reinforcement work of the main reinforcing bar 2 and the stirrup reinforcing bar 3, as can be seen from the configuration form. The work was cumbersome and laborious, and the skilled workers had to relocate the cast iron (2) and the stirrup reinforcing bars (3) in the correct position, making the work difficult and causing an increase in construction cost and duration.

On the other hand, the structure of the beam using steel in the Republic of Korea Patent Publication No. 10-2009-0068536 as a conventional method having a steel concrete structure is disclosed in Figure 2, as shown in Figure 2, the beam 6 is Steel frame 9 such as H-beam, concrete 1 formed to surround all or part of the steel frame, and reinforcing bars 7 and 8 disposed inside the concrete 1.

The beam 6 having the steel frame 9 according to the above method may be manufactured in a precast factory, but there is a problem in that the production and installation and removal of the formwork are still required. In addition, the beam 6 may be blocked by the web of the steel frame 9 when the concrete 1 is poured, so that the concrete 1 may not be poured at the same time. After pouring 1), the concrete (1) should be poured on the other side of the web. Accordingly, the concrete (1) is separated by the web, so that the bonding force and structural properties of the concrete (1) are not excellent and the concrete (1) is poured. There is a problem that the time spent pouring and complicated operation.

Republic of Korea Patent Publication No. 10-2009-0068536 Republic of Korea Patent No. 10-0626544

An object of the present invention is to solve the above problems, the truss rebar is connected to the bent upper iron plate and the lower iron plate to reduce the consumption of the iron plate can be reduced in weight, the bent upper and lower iron plate is fixed to the adjacent upper and lower iron plate and bolt The upper opening has a cross-section open in the upper direction to facilitate the casting of concrete, and the poured concrete is placed inside the truss reinforcement and is connected to the truss reinforcement without being separated from left and right after curing. Bonding and structural properties of concrete will be excellent, and the bending of upper and lower steel plates and the drilling of bolt holes formed on upper and lower steel plates are made beforehand to be mechanically formed at the factory, so it is necessary to use skilled workers with uniform and high-quality steel plates. Even low-skilled non-skilled workers simply tighten bolt assembly This is capable of being sigongbi is reduced to provide a composite beam structure capable of shortening the construction period.

This object of the present invention is composed of an iron plate, reinforcing steel and concrete, the upper iron plate having a bent portion and the lower iron plate disposed to be spaced apart to the lower portion of the upper iron plate and having a plurality of bent portion and the upper opening by the upper and lower iron plate A pair of iron plate portions formed of truss steel bars which are formed and welded to the upper iron plate and the lower iron plate, respectively, and connect upper and lower iron plates, and fixing bolts fixing the upper iron plate and the lower iron plate, respectively, the pair of iron plate portions facing each other. And a composite beam comprising a fixing part formed of a nut; Concrete is formed through the upper opening to the interior of the lower steel plate of the composite beam is formed by combining the concrete forming unit integrally with the truss reinforcement;

Preferably, the lower iron plate is characterized in that the wing portion is integrally formed to extend outward from the third bent portion of the plurality of bent portion.

Composite beam structure according to the present invention, consisting of a steel plate, reinforcement and concrete, the upper iron plate having a bent portion and the lower iron plate disposed to be spaced apart to the lower portion of the upper iron plate and having a plurality of bent portion and the upper opening by the upper and lower iron plate A pair of iron plate parts formed of truss reinforcing bars connected to the upper and lower iron plates and welded to the upper and lower iron plates, respectively, and fixing the upper and lower iron plates, respectively, the pair of iron plate parts facing each other. The upper steel plate is bent and composed of a composite beam comprising a fixing portion consisting of bolts and nuts, and a concrete forming portion is formed through the upper opening portion is formed by integrally coupling with the truss reinforcement onto the interior of the lower iron plate, The truss reinforcing bar is connected to the lower plate Light weight can be reduced by reducing the quantity, the bent upper and lower iron plate is formed by the upper upper and lower iron plate and the upper opening having a cross-section open in the upper direction bolted by the fixing portion to facilitate the casting of concrete, The concrete part is placed inside the truss reinforcement is not separated from the left and right after curing is connected to each other integrally combined with the truss reinforcement to improve the bonding strength and structure of the concrete, without using steel frame to the upper steel plate and lower steel plate The separated steel plate can be used to reduce the weight of the building and reduce the weight of the building. The bending of the upper and lower steel plates and the drilling of the bolt holes formed on the upper and lower steel plates are made beforehand to be mechanically formed at the factory. It is possible to assemble the steel plate only by fixing bolts, which saves construction costs and Period is shortened has excellent effects of reduction of air as possible.

1 is a cross-sectional view schematically showing a composite beam structure formed of a conventional reinforced concrete structure.
Figure 2 is a cross-sectional view schematically showing a composite beam structure formed of a conventional steel concrete structure.
3 is a perspective view of a composite beam structure according to an embodiment of the present invention.
Figure 4 is a schematic partial cutaway perspective view showing a state before concrete pouring of the composite beam structure according to an embodiment of the present invention.
Figures 5a and 5b is a schematic front and side cross-sectional view showing a state after the concrete casting of the composite beam structure according to an embodiment of the present invention.

Hereinafter, a synthetic beam structure according to an embodiment of the present invention will be described with reference to the accompanying drawings.

Composite beam structure (A) according to an embodiment of the present invention, the upper iron plate 110 and the lower iron plate 120 spaced apart from the upper plate 110 by a fixed distance welded to the upper and lower steel plates (110, 120) to be connected to each other. A pair of iron plate portions 100 formed of truss reinforcing bars 200 connected to each other are disposed to face each other, and a fixing portion 300 fixing the pair of iron plate portions 100 facing each other with bolt connections. Synthetic beam 10 consisting of; It is poured through the upper opening 130 is formed on the top of the composite beam 10 while being formed together with the truss reinforcement 200 is positively formed and integrally coupled to the concrete forming unit (400).

The composite beam 10 is made of an iron plate portion 100, truss reinforcement 200, fixed part 300.

The iron plate portion 100 is composed of the upper iron plate 110 and lower iron plate 120 and the truss reinforcement 200, a pair is assembled with a fixing portion 300 is made of a composite beam (10).

The upper plate 110 of the iron plate portion 100 is bent 'b' to form a vertical portion welded and fixed to the upper portion of the truss reinforcement 200, and a horizontal portion bent in the outer direction while extending upward from the vertical portion And the bent portion 111 is formed in the middle is extended to be integrally folded. The bent part 111 of the upper iron plate 110 is manufactured to be mechanically bent in a factory, not welded. A plurality of bolt holes 112 are drilled in the upper iron plate 110 so that the fixing bolt 310 is inserted.

The lower iron plate 120 of the iron plate part 100 is spaced apart from the lower portion of the upper iron plate 110 and has a plurality of bent parts 121, 122, and 123 and is welded and connected to the lower part of the truss reinforcement 200. The bent parts 121, 122, and 123 of the lower iron plate 120 extend in the first bent part 121 and the first bent part 121 which are firstly bent in the outward direction while extending downward in the embodiment of the present invention. And then bent integrally while forming three bent portions, such as the secondary bent portion 122 and the secondary bent portion 122, which are secondly bent in the upward direction, and the third bent portion 123, which is thirdly bent in the outer direction. It is extended. The plurality of bent portions 121, 122, and 123 of the lower iron plate 120 are manufactured not to be welded but mechanically bent at the factory. Deck plate 500 is disposed on the wing portion 124 integrally extended in the outward direction from the tertiary bent portion 123, and the concrete slab may be constructed thereon or an additional additional configuration may be disposed. A plurality of bolt holes 125 are perforated so that the fixing bolt 310 is also inserted into the lower iron plate 120.

Between the end of the horizontal portion of the upper plate 110 of the iron plate portion 100 and the third bent portion 123 of the lower plate 120 is formed a space that becomes the upper opening 130 opened to the upper portion Thereby, the pouring of concrete through the upper opening 130 can be performed quickly and easily.

As such, the iron plate part 100 is the upper iron plate 110, the lower iron plate 120 and the upper and lower iron plate 110, 120 spaced apart from a predetermined distance from the upper iron plate 110 by the truss reinforcement 200 up and down It is made to be connected between the truss reinforcing bar 200 is separated so that there is an empty communication space 131 to reduce the consumption of the steel plate to achieve the effect that it is possible to lighten, and also because it uses the steel plate without using steel By reducing the load on the building structure, the overall weight of the building becomes possible.

In addition, the communication space 131 is integrally connected without being separated because concrete is connected to each other through the communication space 131 in a state where the iron plate portion 100 on one side and the iron plate portion 100 on the other side communicate with each other. It will be hardened so that the strength can be expressed more strongly.

The truss reinforcement 200 is the upper portion is welded and fixed to the upper iron plate 110 of the iron plate portion 100, the lower portion is welded and fixed to the lower iron plate 120 of the iron plate portion 100, The upper and lower steel plates 110 and 120 are connected and fixed to each other by the truss reinforcement 200.

As described above, the upper and lower steel plates 110 and 120 are connected to each other by the truss reinforcement 200 so that the concrete poured through the upper opening 130 is between the truss reinforcement 200 of the upper and lower steel plates 110 and 120. Since it can be poured while communicating with the communication space 131, the poured concrete is integrally formed while being cured, and is cured and combined with the truss reinforcement 200, thereby exhibiting the effect of excellent structural strength of the poured concrete. Will be done.

In addition, since the upper and lower iron plates 110 and 120 are spaced apart by the truss reinforcing bar 200, the consumption of the iron plate is reduced by the reduced weight, so that the weight of the iron plate can be lightly reduced.

Iron plate portion 100 consisting of a truss reinforcement 200 is welded and fixed to connect the upper and lower iron plates 110 and 120 and the upper and lower iron plates 110 and 120 to be spaced apart from each other, as shown in Figures 5a and 5b, disposed facing each other. Is done in pairs.

The fixing part 300 is composed of a fixing bolt 310 and a nut 320, the fixing bolt 310 is formed in the bolt hole 112 formed in the upper iron plate 110 and the lower iron plate 120 Inserted through the bolt hole 125 and fixed by the nut 320, the upper and lower steel plates 110 and 120 and the truss reinforcement 200 is welded and fixed to each other facing each other by the fixing of the fixing part 300 It can be made in a configuration that is arranged in pairs, thereby the composite beam 10 by the pair of the lower iron plate 120 is to be able to provide a space in which concrete can be poured into the interior space.

The concrete forming unit 400 is formed of concrete that is poured through the upper opening 130 formed on the composite beam 10.

The concrete forming unit 400 is poured into the communication space 131 between the empty space and the truss rebar 200 spaced apart from the upper and lower steel plates 110 and 120 of the iron plate portion 100 and the steel plate portion 100 It is formed by being integrally formed without being separated by) and coupled together with the truss reinforcement 200 therein, thereby the concrete forming part 400 according to an embodiment of the present invention is a reinforced concrete structure Among the composite beams, the reinforced structure of the reinforced concrete structure of the reinforced concrete structure, which has the effect of making the structural strength of concrete very excellent, will be provided.

In the construction process of the composite beam structure A according to the present invention having the above-described technical configuration, first, the bending parts 111, 121, 122, and 123 are mechanically formed in the factory in advance, and the upper steel plates 110 having the bolt holes 112 and 125 perforated therein. And a lower iron plate 120, and the upper and lower iron plates 110 and 120 are connected to each other by welding and fixing the truss reinforcement 200 to the upper iron plate 110 and the lower iron plate 120. The fixing bolt 310 is inserted into the bolt holes 112 and 125 drilled into the 110 and 120 and the nut 320 is fixed to form the composite beam 10, and the upper opening 130 formed on the upper portion of the composite beam 10. The concrete is poured. By connecting the upper and lower iron plates 110 and 120 to the truss rebar 200 as described above, the consumption of the steel plate can be reduced by that, and the weight of the steel plate can be reduced and the weight of the steel plate can be reduced. It is possible to reduce the weight. At this time, the truss reinforcement 200 may perform a construction process of welding fixed to the upper and lower iron plates (110, 120) at the construction site, but is manufactured in the welding fixed state in advance in the factory in advance to shorten the air and immediately placed at the construction site There is an advantage that can be assembled.

The concrete forming part 400 formed of concrete poured through the upper opening 130 passes from the inner bottom of the lower steel plate 120 to the lower portion of the truss reinforcing steel 200 welded to the upper and lower steel plates 110 and 120. Since it is placed in communication through the spaced communication space 131 is formed integrally without being separated to the bottom height of the upper iron plate 110, the concrete forming portion 400 is not separated by the upper and lower iron plates (110, 120) The concrete forming unit 400 formed of a concrete formed integrally with the truss reinforcement 200 is formed to be coupled to be very excellent in structural strength of the concrete.

By completing such a construction process, the batch construction of the composite beam structure A according to the present invention is completed, and as a subsequent process, the deck plate 500 is disposed on the wing 124 of the lower steel plate 120 or the slab. Construction or other necessary additional construction can be performed.

The composite beam structure according to the present invention will be referred to as an industrially applicable invention because it is possible to repeatedly produce the same product and construct a building in a technical field for producing a composite beam structure widely used in a general construction site.

A: composite beam structure 10: composite beam
100: iron plate portion 110: upper iron plate
111: bend 112: bolt hole
120: lower iron plate 121,122,123: bent portion
124: wing portion 125: bolt hole
130: upper opening 200: truss rebar
300: fixing part 310: fixing bolt
320: nut 400: concrete forming part

Claims (4)

In the composite beam structure in which concrete is poured through the upper portion of the composite beam consisting of a steel plate and reinforcing bars,
The composite beam structure (A),
A pair of iron plate 110 made of a truss reinforcement (200) for welding and fixing the upper iron plate 110 and the lower iron plate (120) spaced from a predetermined distance from the upper iron plate (110) by being connected to the upper and lower iron plates (110, 120) by welding. Part 100 is disposed facing each other, the composite beam 10 consisting of a fixing portion 300 for fixing the pair of iron plate portion 100 facing each other with a bolt connection;
The concrete forming unit 400 is formed by being cast together with the truss reinforcement 200 while being poured through the upper opening 130 to the inside of the lower iron plate 120 of the composite beam 10; Composite beam structure comprising a.
The method of claim 1,
The iron plate part 100 includes a truss reinforcement 200 for connecting the upper iron plate 110, the lower iron plate 120 spaced apart from the upper iron plate 110 by a predetermined distance, and the upper and lower iron plates 110 and 120. And the hollow communication space 131 is formed between the truss reinforcement 200.
The method of claim 1,
Between the end portion of the horizontal portion of the upper plate 110 of the iron plate portion 100 and the third bent portion 123 of the lower plate 120 is formed a space that becomes the upper opening 130 opened to the upper portion ,
An empty communication space 131 is formed between the truss reinforcement 200,
Concrete poured through the opening 130 is a composite beam structure, characterized in that to form an integral concrete forming unit 400 while hardening integrally through the communication space 131.
The method of claim 1,
The lower iron plate 120 is a composite beam structure, characterized in that the wing portion 124 is integrally formed to extend outward from the third bent portion (123).

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