KR101482977B1 - Steel concrete composite beam using profiled plate - Google Patents

Abstract

The present invention relates to a steel concrete composite beam using a molding plate which has internal protrusions integrated by building an open box shape through assembling unit steel plate sections and pouring concrete onto the box. A preferred embodiment of the present invention includes: a steel beam; and the concrete which is poured into the internal space of the steel beam. The steel beam includes: a vertical support formed in the vertical direction; an upper support unit and a lower support unit which are formed by being extended to a horizontal direction perpendicular to the upper and lower ends of the vertical support; a pair of side surface units which has Z-shaped sections comprising the coupling units formed by being extended from the end unit of the lower support in the upward direction and has protrusion units which comprises two vertical pieces which are curved to the upper part from the center of the lower support unit and horizontal pieces connecting the upper ends of the vertical units. The steel beam also has a box-shaped section with an opening on the upper part by coupling the coupling units of the side surface units to come in contact with each other.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a steel concrete composite beam using profiled steel plates,

The present invention relates to a steel concrete composite beam using a formed steel plate having an inner projecting portion formed therein, more particularly, to an inner projecting portion formed by assembling a unit section formed with a steel plate into a box shape, This invention relates to a steel concrete composite beam using a steel plate.

Steel Concrete Composite steel beam and reinforced concrete are designed to behave as a single member so that when the bending moment is applied, most of the compressive stress will be imposed on the concrete and tensile stress will be imposed on the steel member. It is possible to secure the shape space of bridge structures or bridge structures of building structures and to increase the resistance strength and resistance stiffness of beam cross section to make long span structures and to have an advantage of increasing extreme performance and deformation performance.

H-shaped steel, which is generally used to realize steel concrete composite beams, is a member section that effectively resists tensile and compressive forces that occur in a member due to bending when viewed from the side of steel use. However, Because the neutral axis of the composite section moves to the upper flange side and the concrete slabs bear most of the compressive force, the upper flange is used as an ineffective resistance section. Also, since the performance is excellent in terms of the strength evaluation of the composite member, it is widely applied to the long span. In this case, the rigidity of the cross section is relatively small, which indicates problems of usability such as excessive deflection and vibration.

To solve these problems, a steel-reinforced concrete beam (SRC beam) was developed to surround the outside of the H-beam of the composite beam with reinforced concrete. The SRC has the advantage of excellent strength and stiffness of the cross section of the beam, but it has a drawback in that it requires a careful attention to the formwork and the shorebreak work at the site construction. In addition, there is no contribution of concrete surrounding the H-shaped section to the tensile stress generated in the lower section of the beam member in the section of the momentum, which is an ineffective structure section. Since the concrete bending crack is visually observed, have.

As a background of the present invention, there is a patent registration No. 0936403 entitled " Composite Steel Sheet Concrete Composite Beam Having a Refractory Covering Material Attachment Structure and Its Construction Method "(Patent Document 1). 7, a concrete steel slab is formed by molding a steel plate into a shape and casting concrete in a space portion, a concrete slab installed on an upper portion of the steel slab so as to be integrally connected with the concrete, And a flow preventive member protruding from the side plate of the molded steel plate to prevent the downward flow of the refractory covering material sprayed from the side plate so that the refractory covering material is firmly attached to the side of the steel plate Composite steel plate concrete composite sheet. "

However, it is difficult to apply various cross sections to the above-mentioned background art. Since a plurality of shear connectors must be separately formed on the upper surface of the upper flange, a separate process is required for joining the shear connectors, And it was difficult to mount the deck plate.

Patent Registration No. 0936403 "Composite Steel Sheet Concrete Composite with Refractory Covering Structure and Its Construction Method"

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a steel plate for a steel plate, Since it is made into a box shape and filled with concrete, it can increase the momentum. It can increase the adhesion with concrete by forming the protrusion in the inside, and at the same time, it can form the inner protrusion which can increase the strength and stiffness. The present invention provides steel composite concrete beams using steel sheets.

The present invention relates to a vertical support unit comprising vertically formed vertical support members, an upper support unit and a lower support unit which are formed by horizontally staggering the upper and lower ends of the vertical support unit, and a coupling unit extending vertically upwardly from the end of the lower support unit, A pair of side units each having a Z-shaped cross section at right angles and having a protruding portion formed by a horizontal piece that is bent at a central portion of the lower support portion so as to protrude upward to connect the two vertical pieces and the upper ends of the vertical pieces, And the side unit are coupled to each other so as to be in contact with each other so as to have a box-shaped cross section with an open top; Wherein the vertical support portion of the steel beam is positioned at a predetermined interval at a lower portion of the center portion of the vertical support portion at both ends of the vertical support portion at a central portion of the vertical support portion at a central portion of the steel beam, And a plurality of spacing members are installed to interconnect the plurality of spacing members with each other.

Also, the lower support part of the side unit is provided with a part where the vertical part forming the protrusion and the part contacting with the horizontal piece are separated and joined to each other to provide a steel concrete composite using the formed steel plate.

Also, the protruding portion of the side unit is formed such that all or one of the two vertical pieces is inclined so as to selectively form an acute angle with the lower supporting portion. The present invention provides a steel concrete composite beam using the formed steel plate.

And a flange formed horizontally at an upper end of the web and having a lower end portion fitted between the side unit and the coupling portion of the side unit and having an upper end vertically higher than the upper support portion of the side unit, The present invention provides a steel concrete composite beam using a steel plate having an inner protrusion formed thereon.

The present invention also provides a composite concrete composite plate using a molded steel plate having an inner protrusion formed in a web and a flange of a shear connection member, wherein a shear connection hole is formed at predetermined intervals.

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Since the unit section of the steel sheet is formed by assembling the unit section of the steel concrete using the formed steel sheet having the inner projecting part of the present invention, various cross sections can be easily applied and the outer steel sheet can be used as a structural material, Since it is made in box form and filled with concrete, it can increase the momentum. It can increase the adhesion with concrete by forming protrusion in the inside, and it is very useful effect to increase the strength and stiffness. have.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partially cutaway perspective view showing a structural system to which a steel concrete composite beam is applied using a molded steel plate having an inner protrusion according to the present invention. FIG.
2 is a cross-sectional view of a steel concrete composite beam using a molded steel plate having an inner protrusion according to the present invention.
3 is an exploded perspective view and a cross-sectional view of another embodiment of the steel beam according to the present invention.
4 is a cross-sectional view of a steel concrete composite beam showing various embodiments of the inner projections of the steel beam of the present invention.
5 is a cross-sectional view of a steel concrete composite beam of an embodiment in which a steel beam according to the present invention is provided with a shear connection member.
6A is a cross-sectional view of an embodiment in which a gap holding member is provided in a steel beam according to the present invention.
FIG. 6B is a cross-sectional view taken along line AA of FIG. 6A.
7 is a cross-sectional view of a steel plate concrete composite beam having a conventional refractory coating material attaching structure.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

Hereinafter, the technical structure of the present invention will be described in detail with reference to the preferred embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partially cutaway perspective view showing a structural system to which a steel concrete composite beam is applied using a steel plate with an inner protrusion of the present invention. FIG.

As shown in FIG. 1, in the structural system using the steel concrete composite beam using the formed steel plate with the inner protrusions according to the present invention, two side units 10a are coupled to each other to form a steel beam 10 And after the end of the deck plate 2 is seated on the upper part of the upper supporting part 12 of the steel beam 10, the concrete 50 is placed on the upper part of the deck plate 2, And the concrete 50 is filled inside.

2 is a cross-sectional view of a steel concrete composite beam using a molded steel plate having an inner protrusion according to the present invention.

The steel beam 10 is formed by mutually coupling two side units 10a so as to form a box-shaped cross section with an open top.

The side unit 10a includes a vertical support portion 11 formed vertically and an upper support portion 12 and a lower support portion 13 extending in the horizontal direction staggered at upper and lower ends of the vertical support portion 11, And an engaging portion 14 extending vertically upward at an end portion of the upper end portion 13 to have a Z-shaped cross section having corners at right angles.

The vertical supports 11 are vertically formed to form side walls of the steel beam 10, and may have various heights.

The upper support portion 12 is formed at a right angle to the vertical support portion 11 in a shape bent to one side by extending to the upper end of the vertical support portion 11. [ The upper support portion 12 is formed to face the outer side of the steel beam 10 when the steel beam 10 is formed so that the end portion of the deck plate 2 is seated on the upper end portion.

The lower support portion 13 is formed to be bent from the lower end portion of the vertical support portion 11 to the other side so as to be parallel to the upper support portion 12. [ That is, the lower support portion 13 is formed in a bent shape opposite to the direction of the upper support portion 12, and has a Z-shaped cross section having corners at right angles as a whole.

The lower supporting portion 13 is formed with a projecting portion 131 protruding upward in the central portion so that the adhesion force with the concrete 50 formed inside the steel beam 10 formed by the coupling of the side units 10a and 10a, Strength, and stiffness.

The protruding portion 131 is formed to have a rectangular cross section so that it can be easily bent. The protruding portion 131 is formed by bending the vertical piece 131a and the horizontal piece 131b connecting the upper ends of the vertical pieces 131a.

The engaging portion 14 is formed to extend from an end portion of the lower supporting portion 13 and is bent in a vertically upward direction, and is configured to be in parallel with the vertical supporting portion 11. The coupling unit 14 is provided so that when the side units 10a are coupled to each other, the coupling unit 14 is brought into contact with each other, thereby increasing the coupling area to facilitate coupling.

The joining portion 14 is formed to be lower than the height of the vertical support portion 11 and the height of the lower portion of the vertical support portion 11 is set to be less than the center height of the vertical support portion 11 so that the concrete 50 in the steel beam 10 is not disconnected by the engagement portion 14. [ .

The side unit 10a including the upper support portion 12, the vertical support portion 11 and the lower support portion 13 is configured such that the two side units 10a are opposed to each other such that the engagement portions 14 are in contact with each other The upper support portion 12 serves to seat the deck plate on the upper portion and the vertical support portion 11 and the lower support portion 13 serve as a mold .

The coupling between the side units 10a can be combined by various known methods such as welding, bolting, or the like.

3 is an exploded perspective view and a cross-sectional view of another embodiment of the steel beam according to the present invention.

As shown in FIG. 3, the side unit 10a can be formed by segmenting into two unit pieces, and then combining the two unit pieces. Since the side unit 10a has a plurality of bent portions, the side unit 10a can be divided into two unit pieces to facilitate manufacture and transportation.

The lower support portion 13 of the side unit 10a is divided into two unit pieces so that the portion where the vertical piece 131a and the horizontal piece 131b are in contact with each other on the side of the vertical support portion 11 constitutes two unit pieces, Thereby constituting the unit 10a. The bonding of the two units may be combined by various known methods such as welding.

4 is a cross-sectional view of a steel concrete composite beam showing various embodiments of the inner projections of the steel beam of the present invention.

As shown in Figs. 4A and 4B, one of the inner and outer vertical pieces 131a may be formed by a slant line, or both of the inner and outer sides may be formed by diagonal lines, as shown in Fig. 4C, It is possible to further improve the adhering force. The vertical piece 131a is formed at an acute angle with the lower supporting part 13 such that the width of the upper part is wider than the width of the lower part of the vertical piece 131a and the vertical piece 131a.

5 is a cross-sectional view of a steel concrete composite beam of an embodiment in which a steel beam according to the present invention is provided with a shear connection member.

As shown in Fig. 5A, a T-shaped cross section is formed between the side unit 10a and the coupling portions 14 and 14 of the side unit 10a when the side unit 10a constituting the steel beam 10 is engaged So that the joint between the concrete 50 filled in the steel beam 10 and the steel beam 10 as a dissimilar material is further strengthened.

The shear connector 30 is composed of a web 31 and a flange 32 formed horizontally at the upper end of the web 31 and is formed to have a T-shaped cross section.

The lower end portion of the web 31 is fitted and engaged between the side unit 10a and the engaging portions 14 and 14 of the side unit 10a and the upper end portion is engaged with the upper portion 12 of the side unit 10a The flange 32 is formed to be embedded in the slab so that the flange 32 is made to have a height difference from the upper support portion 12 so that the coupling force between the flange 32 and the concrete placed in the upper and lower portions of the steel beam 10 can be increased. .

So that the shear connector 30 is configured at the entire length of the steel beam 10.

5b, the web 31 and the flange 32 of the shear connector 30 are provided with a shear connection hole 34 at predetermined intervals so that the concrete can be passed through the shear connection hole 34, Continuous without disconnection.

FIG. 6A is a sectional view of an embodiment in which a spacer member is formed in a steel beam according to the present invention, and FIG. 6B is a sectional view taken along the line A-A of FIG. 6A.

As shown in FIG. 6, the gap holding member 20 can be coupled to the steel beam 10 at regular intervals.

The gap holding members 20 are coupled to each other so as to mutually connect the vertical supports 11 and 11 of the steel beam 10 at regular intervals and the joints are joined by various known methods such as welding and bolt connection using a bracket .

 Although an example in which an L-shaped steel (angle) is used as the gap holding member 20 is shown in the drawing, the present invention is not limited thereto, and may be a member having strength capable of preventing the vertical supports 11 and 11 from spreading A member having any cross-sectional shape known in the art, for example, a d-shaped section (channel), a Z-shaped section, or the like may be used. On the other hand, the gap retaining member 20 also functions as a shear connection member which induces the formation of the concrete and the steel beam 10, which are different materials, as well as the shape maintenance, the prevention of the spreading of the vertical supports 11 and 11.

The gap holding member 20 is coupled to the inside of the steel beam 10 in the width direction over the entire length of the steel beam 10. The center of the steel beam 10 has a vertical support portion 11, The center portion of the steel beam 10 to which the moment acts acts to effectively resist twisting and the like, and the both ends effectively correspond to the shear force.

As described above, since the unit section formed by molding a steel sheet is assembled and configured, it is possible to easily apply various cross-sections, and the outer steel sheet can be used as a structural member, It is possible to increase the momentum of the concrete because it is made in the form of a box and filled with concrete, and it is possible to increase the strength and stiffness while increasing the adhesion with concrete by forming a protrusion in the inside There is a very useful effect.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

2: Deck plate
10: steel beam
10a: side unit
11: vertical support
12: upper support
13:
14:
20:
30: Shear connector
31: web
32: Flange
34: Shear connection ball
50: Concrete
131: protrusion
131a:
131b:

Claims (6)

A vertical supporting part 11 formed vertically and an upper supporting part 12 and a lower supporting part 13 extending in the horizontal direction staggered at the upper and lower ends of the vertical supporting part 11, And has a Z-shaped cross section whose corners are respectively orthogonal to each other. The center portion of the lower support portion 13 is bent in a protruding shape upward so that two vertical pieces 131a and vertical A pair of side units 10a each having a protrusion 131 formed of a horizontal piece 131b connecting the upper end of the side piece 10a and the side piece 10a are connected to the coupling unit 14 of the side unit 10a and the side unit 10a, (10) formed so as to have a box-shaped cross section with an upper portion thereof engaged with each other so as to abut against each other;
And a concrete (50) placed in an inner space of the steel beam (10)
At the central portion of the vertical support portion 11 at the central portion of the vertical support portion 11 at both ends of the vertical support portion 11 at the central portion of the vertical support portion 11, And a plurality of spacing members (20) are installed to interconnect the plurality of spacing members (11) at regular intervals. The method according to claim 1,
Wherein the lower support portion 13 of the side unit 10a is formed by joining a portion where the vertical piece 131a forming the protrusion 131 and the horizontal piece 131b are separated and joined. Steel Concrete Composite. The method according to claim 1 or 2,
The protruding portion 131 of the side unit 10a is formed such that all or one of the two vertical pieces 131a are inclined selectively to form an acute angle with the lower support portion 13. [ Steel Concrete Composite. The method according to claim 1 or 2,
And a lower end portion of which is fitted between the side unit 10a and the coupling portions 14 and 14 of the side unit 10a and whose upper end is vertically formed higher than the upper support portion 12 of the side unit 10a And a flange (32) formed horizontally at the upper end of the web (31) and having a T-shaped cross-section of the shear connection member (30). . The method of claim 4,
Wherein a shear connection hole (34) is formed through the web (31) and the flange (32) of the shear connection member (30) at regular intervals. delete

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