KR101144586B1 - Steel built-up beam having closed section for applying long span and reduction of height and concrete filled composite beam system using the same - Google Patents

Abstract

PURPOSE: A steel beam having a closed-section for using a long-span and reducing a height and a composite beam system filled with concrete using the same are provided to reduce construction time and costs because the quantity of members is reduced. CONSTITUTION: A steel beam having a closed-section for applying a long-span and reducing a height comprises a lower member(11) having a half-section, an upper member(12) having a half-section, and connection members(13). The lower member is composed of a lower plate(111), two side plates(112), and support plates(113). The side plates are upward extended from both ends of the lower plate. The support plates are horizontally extended from the side plates. The upper member is composed of an upper plate(121) and two inclined plates(122). The inclined plates are downward extended from both sides of the upper plate. The upper member is coupled to the top of the lower member. The connection members are coupled to both sides of the coupled upper and lower members.

Description

Steel built-up beam having closed section for applying long span and reduction of height and concrete filled composite beam system using the same}

The present invention can cope with the increased floor design load, can be effectively used in the long span of 10m or more, and the steel beam of the closed cross-sectional shape that can improve the economics by reducing the floor height, and the concrete deck and deep deck plate The present invention relates to a concrete-filled composite beam system that can be synthesized and have a one-way slab structure in a long span, thereby significantly reducing the number of members.

Steel composite beams, which efficiently use the advantages of steel and concrete, have been developed for a long time. The developed composite view can be classified from various perspectives. A representative rigid composite beam is shown in FIG. 8.

As shown in (a) of FIG. 8, the deck plate composite beam is mounted on the deck plate 72 on the upper portion of the H-beams 71 and poured concrete 73 into the deck plate to be easily installed. The installation time and labor can be saved in the field, and since the deck plate acts as the tensile reinforcing bar in the composite beam, it has a structural feature that the total amount of rebar is reduced because only the minimum cracking temperature reinforcing bar is required.

As shown in (b) of FIG. 8, the slim floor welds the plate 82 to the lower flange 811 of the H-shaped steel 81, and then attaches the deck plate 83 to the lower flange 811 of the beam member. On the plate 82 welded to the floor height reduction method. The slim floor can reduce the height of the entire building by reducing the thickness of the entire floor plate, and there is an advantage that no additional fire reinforcement is needed because the concrete 84 surrounding the beam has a certain fire resistance.

Referring to (c) of FIG. 8, when synthesizing the steel and concrete, the TSC beam is disposed in the cross section of the steel concentrated on the tension-side shell of the structural member, and the vertical plates 91 corresponding to the web are separately disposed on both sides. The three sides of the beam are closed with a steel sheet and concrete 92 is filled therein. As the concrete is bound by the steel sheet, the bending rigidity is increased and the concrete is not exposed, thereby preventing cracks and neutralization, thereby improving durability.

The present invention is to provide a composite beam capable of satisfying the changing performance requirements of the market while fully utilizing the structural features and advantages of the existing rigid composite beam has the following object.

An object of the present invention is to provide a steel beam that can cope with the increased floor design load, can be effectively used in the long span of 10m or more, and can improve the economics by reducing the floor height.

Another object of the present invention is to cope with the increased floor design load, can be effectively used in the long span of 10m or more, and the one-way slab structure is possible in the long span by using the steel beam which can improve the economic efficiency by reducing the floor height, thereby dramatically reducing the number of members. It is to provide a concrete-filled composite beam system that can be reduced.

Closed section steel beams for long span application and floor height reduction according to a preferred embodiment of the present invention are horizontally outwardly from the bottom plate, two side plates extending upward at both ends in the width direction of the bottom plate, and two side plates, respectively. A lower half-section member consisting of a supporting plate extending in advance; The upper half-section member is composed of an upper plate perforated with a plurality of concrete pouring holes, and two inclined plates extending downward from both ends in the width direction of the upper plate, and coupled to the upper portion of the lower half-section member to close the cross section. ; And connecting members respectively provided at both ends in the longitudinal direction of the closed cross section formed by the coupling of the lower half-section member and the upper half-section member.

One or two or more of a lower opening formed at a portion where the inclined plate and the supporting plate meet, a central opening formed at a portion spaced apart from the base plate and the upper plate by a predetermined distance, and an upper opening formed at the portion where the inclined plate and the upper plate meet each other may be formed. .

A plurality of angle members coupled to the lower plate and the two side plates at intervals along the longitudinal direction are installed inside the lower half-section member, and a plurality of reinforcing bars are provided on the upper surface of the angle member over the entire length of the beam in the longitudinal direction. This can be installed.

A plurality of non-slip reinforcing bars in the longitudinal direction may be coupled to the upper plate of the upper half-section member.

The connecting member has an 'H' or 'I' shaped cross section having an upper flange, an abdomen and a lower flange, and has a height greater than a height of a closed cross section formed by combining the lower half-section member and the upper half-section member. At both ends of the closed cross-section formed by combining the half-section member and the upper half-section member, a predetermined length may be inserted inward and may be coupled to form a gap between the lower flange and the bottom plate.

A plurality of stiffeners may be installed in the height direction between the lower flange of the connection member and the lower plate of the lower half-section member.

The connecting member has an 'H' or 'I' shaped cross section having a height such that the closed cross section formed by the lower half cross section member and the upper half cross section member is coupled between the upper flange and the lower flange. The member and an inverted 'T' shaped member coupled to the lower portion may be coupled.

The connecting member is composed of an upper 'T'-shaped member and a lower inverted' T'-shaped member and has a cross section of an 'H' or 'I' shape as a whole, and the abdomen of the upper 'T'-shaped member is an upper plate and a lower plate. A certain length is inserted into the upper plate and the upper plate is coupled to the upper flange, and the lower inverse 'T' shaped member may be coupled to the lower portion of the upper 'T' shaped member.

Concrete-filled composite beam system according to a preferred embodiment of the present invention is a closed cross-section steel beam described above, deck plate mounted on the base plate of the steel beam, slab concrete integrally synthesized on the top of the tech plate, and closed cross-section steel beam It includes filled concrete filled inside.

The steel beam according to the present invention is a composite connecting material between concrete and steel, and is a closed cross-sectional structure composed of an upper half-section member structurally contributing to the bending resistance and a lower half-section member supporting the deck plate as a U-shape as a whole. This improves usability.

In addition, the composite beam system is a filled steel pipe structure, which increases strength and rigidity, which increases the applicable span. By combining it with a deck plate with deep dance, it is possible not only to reduce the height of the floor but also to reduce the number of members. . In addition, no separate shear connector for slab and composite is needed, no additional fireproof coating is required, and the degree of freedom of plan planning can be increased.

The following drawings, which are attached in this specification, illustrate the preferred embodiments of the present invention, and together with the detailed description thereof, serve to further understand the technical spirit of the present invention. It should not be construed as limited.
1 is an exploded perspective view showing a closed cross-section steel beam according to an embodiment of the present invention, Figure 2 is a perspective view showing an assembled state, Figure 3 is a cross-sectional view.
Figure 4 shows various modifications of the closed cross-section steel beam according to the present invention, (a) is a perspective view and (b) is a sectional view.
5 is a view showing a modified example of the closed section steel beam according to the present invention.
6 is a view showing another modified example of the closed section steel beam according to the present invention.
7 is a cross-sectional view showing a concrete-filled composite beam system using the closed section steel beam shown in FIG.
8 is a cross-sectional view showing a conventional rigid composite beam.

In the following the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the embodiments presented are exemplary for a clear understanding of the present invention is not limited thereto.

1 is an exploded perspective view showing a closed cross-section steel beam according to an embodiment of the present invention, Figure 2 is a perspective view showing an assembled state, Figure 3 is a cross-sectional view.

1 to 3, the closed cross-section steel beam 10 according to an embodiment of the present invention is the lower half-section member 11, the upper half-section member 12 and the upper, lower half-section member 11, 12 is composed of a connecting member 13 is coupled to both ends of the closed cross-section is formed by.

The lower half-section member 11 extends horizontally outwardly from the lower plate 111 and two side plates 112 and 112 and two side plates 112 and 112 extending upwardly at both ends of the lower plate 111, respectively. It consists of the supporting plates 113 and 113.

The lower half-section member 11 may be manufactured by separately preparing the lower plate 111, the two side plates 112 and 112, and the support plates 113 and 113, and welding them, but constructing a single steel plate by bending the steel plate in multiple stages. It is preferable in that it can eliminate the troublesome and difficulty of quality control.

The two side plates 112 and 112 may extend vertically or inclined upwardly at both ends in the width direction of the lower plate 111.

Deck plates for slab concrete placement are placed on the support plates 113 and 113 extending horizontally outwardly from the two side plates 112 and 112, respectively. Therefore, the length of the support plates 113 and 113 protruding from the side plates 112 and 112 is determined by the length of the deck plate.

The upper half-section member 12 is composed of an upper plate 121 and two inclined plates 122 and 122 extending downward from both ends of the upper plate 121 and is coupled to an upper portion of the lower half-section member 11 to have a cross section. Close up.

Like the lower half-section member 11, the upper half-section member 12 may be prepared by separately preparing the upper plate 121 and the two side plates 112 and 112, but may be manufactured by welding them. It is desirable to.

Concrete is filled in the closed end surface formed by combining the lower half-section member 11 and the upper half-section member 12. To this end, a plurality of concrete placing holes 121a are drilled in the upper plate 121 of the upper half-section member 12. The shape of the concrete placing hole 121a is not particularly limited and its size is determined by the maximum dimension of the coarse aggregate.

A plurality of openings 122a, 122b, and 122c in addition to the inclined plates 122 and 122 of the upper half-section member 12 so that concrete can be more tightly filled into the closed section formed by the upper and lower half-section members. Can be formed.

The opening is a lower opening 122a formed at a portion that meets the support plate 113 of the lower half-section member 11, and a central opening 122b formed at a portion spaced apart from the support plate 113 and the upper plate 121 by a predetermined distance. The upper opening 121 may be an upper opening 122c formed at a portion that meets the upper plate 121.

There is no particular limitation on the shape of these openings 122a, 122b, 122c and the size may be determined by the maximum dimension of the coarse aggregate. In addition, only a portion of the openings 122a, 122b, and 122c may be formed, or all of them may be formed in various patterns by being combined with each other.

The openings 122a, 122b, and 122c have a function of filling the concrete tightly, and the slab concrete placed on the deck plate placed on the support plate 123 is inside and outside the inclined plate 122 through the openings 122a, 122b, and 122c. By continuing into the upper half-section member 12 allows the composite to be integrated with the slab concrete.

The upper bar plate member 12 having the openings 122a, 122b, and 122c formed at various positions of the inclined plate 122 is not only structurally resistant to bending moment, but also constricts concrete to be filled inside to close the cross section, thereby bending flexural rigidity. It can further increase and function as shear connector between concrete and steel as a whole.

As described above, the steel beam according to the present embodiment is combined with the lower half-section member 11 and the upper half-section member 12 to form a closed cross section, and concrete is filled therein as described below.

In the longitudinal direction of the closed cross-section formed by the combination of the lower half-section member 11 and the upper half-section member 12, both ends of the connecting member 13 are used to improve resistance to the parent moment and shear force and to improve the bondability with the column. ) Are combined.

The connecting member 13 has a cross section of 'H' or 'I' shape. Although the cross section of the connecting member 13 is not limited to the 'H' or 'I' shape, as the beam member, the member having the 'H' or 'I' cross section shape is most widely used, and the connection part has many details. Since the developed and working processes are also familiar, it is preferable that the cross section of the connecting member 13 be in the shape of 'H' or 'I'.

The connecting member 13 is connected to the insertion grooves 111a and 121b respectively formed in the lower plate 111 of the lower half-section member 11 and the upper plate 121 of the upper half-section member 12, as shown in FIG. The abdomen 131 of 13 may be inserted and then joined by welding.

Since the connecting member 13 is to apply the details of the joint with the pillar of the H-shaped steel beam, which is the most widely used, the predetermined length is the lower half-section member 11 and the upper half-section member 12 are combined. It should protrude out of the closed cross section.

In the present embodiment, the height of the connection member 13 is configured to be higher than the height of the closed cross section formed by combining the lower half-section member 11 and the upper half-section member 12. Therefore, the upper plate 121 of the upper half-section member 12 is coupled to the lower surface of the upper flange 132 of the connecting member 13 and the abdomen 131 of the connecting member 13 has a predetermined length of the lower plate 111 and the upper portion. The lower half-section member 11 and the lower flange 133 of the connecting member 13 penetrate the plate 121 and have a predetermined interval.

Therefore, the closed cross-section steel beam according to the present embodiment has a cross-sectional shape that is closed over the entire length, and both ends of the longitudinal direction are coupled to the connecting member 13 having a cross section of 'H' or 'I' shape. .

The closed cross-section steel beam according to the present embodiment may be changed in various forms in order to provide additional functions or to correspond to various installation environments or in consideration of manufacturability and economical efficiency. Hereinafter, some of these modifications will be described in detail with reference to the drawings.

Figure 4 shows various modifications of the closed cross-section steel beam according to the present invention, (a) is a perspective view and (b) is a sectional view.

Referring to FIG. 4, a plurality of angle members 114 coupled to the lower plate 111 and the two side plates 112 and 112 at intervals along the longitudinal direction are installed in the lower half-section member 11. On the upper surface of the member 114, a plurality of reinforcing bars 115 are installed in the longitudinal direction. The reinforcing bar 115 enhances the usability by reducing the deflection and vibration by reinforcing the rigidity of the closed section steel beam 10 according to the present embodiment.

The angle member 114 serves as a kind of spacer for fixing the installation position of the reinforcement reinforcement 115 and at the same time as the reinforcement reinforcement 115 to be spaced apart from the lower plate 111 so that heat is transferred to the reinforcement reinforcement 115 in case of fire. Delay to ensure the fire resistance performance.

That is, the temperature of the main reinforcement of the beam should be less than or equal to the predetermined temperature during the prescribed time of the performance certification criteria when evaluating the fire resistance performance, by installing the angle member 114 is required by delaying the time to transfer the heat to the reinforcing bars 115 Ensure fire resistance.

5 is a view showing a modified example of the closed section steel beam according to the present invention.

As illustrated in FIG. 5A, a plurality of non-slip reinforcing bars 121c may be coupled to the upper surface of the upper plate 121 of the upper half-section member 12 in the longitudinal direction.

After the closed cross-section beam according to the present invention is coupled to the column, the deck plate is installed between the two neighboring beams and the slab reinforcement on the top of the deck plate, the operator stepped on the bona deck plate to reinforce the slab reinforcement I will go. Safety accidents that occur most frequently during slab reinforcement work is to fall down, it can be prevented by installing a non-slip reinforcement (121c) on the top plate 121.

In addition, when the length of the beam is long, there is a high possibility that buckling occurs in the upper plate 121 made of a thin plate, but the stiffness can be prevented by reinforcing the bending rigidity with the anti-slip reinforcing bars 121c.

As shown in FIG. 5B, a plurality of stiffeners 14 may be installed in the height direction between the lower flange 133 of the connection member 13 and the lower plate 111 of the lower half-section member 11.

6 is a view showing another modified example of the closed section steel beam according to the present invention.

As shown in (a) and (b) of FIG. 6, the connecting member 13 may be configured by combining various cross sections.

In the embodiment shown in FIG. 1, the connecting member 13 is formed of an 'H' or 'I' character that is higher than the height of the closed cross section formed by combining the lower half-section member 11 and the upper half-section member 12. While a member having a cross-sectional shape is used, as shown in FIG. 6 (a), the lower half-section member 11 and the upper half-section member 12 have the same height as that of the closed cross-section formed by the combination of The member 13a having an H 'or' I 'shape cross section and the inverse' T 'shape member 15 coupled to the lower portion thereof may be combined. Accordingly, according to this embodiment, the upper plate 121 is coupled to the lower surface of the upper flange of the member 13a and the lower plate 111 is coupled to the upper surface of the lower flange, respectively.

In addition, as shown in (b) of Figure 6, the connecting member is composed of the upper 'T'-shaped member 16 and the lower inverse' T'-shaped member 17 as a whole 'H' or 'I' shaped cross section Have According to this embodiment, the abdomen of the upper 'T'-shaped member 16 is inserted into a predetermined length into the upper plate 121 and the lower plate 111 and the upper plate 121 is coupled to the upper flange, and the lower reverse' T ' The female member 17 is coupled to the bottom of the upper 'T' shaped member 16.

7 is a cross-sectional view showing a concrete-filled composite beam system using the closed section steel beam shown in FIG.

As shown in FIG. 7, the deck plates 20 are mounted on the support plates 113 of the closed cross-section steel beams 10. Deck plate 20 can be used for formwork and composite structure depending on whether the cross-section is included in the composite cross-section, but all of them can be applied, but the closed cross-section beam according to the present invention is applied to the long span and can omit small beams during construction It is preferable to use a composite deck plate in that installation can be minimized or unnecessary, and more preferably, a dance deck is larger (higher in height) to cope with a wider gap between beams. 'Deep deck' is recommended.

Slab concrete 30 is poured on the upper surface of the deck plate 20. The slab concrete 30 and the closed cross section beam 10 are integrally synthesized by the openings 122a, 122b, 122c formed at various positions as described above.

When the slab concrete 30 is poured, the concrete is filled in the interior of the closed section beam 10. Filled concrete 40 is tightly filled through the concrete placing hole 121a formed in the upper plate 121 and the openings 122a, 122b, 122c formed in the inclined plate 122.

As described above, in the composite beam system to which the closed cross-section steel beam 10 according to the present invention is applied, a part of the slab is located in the dance of the beam 10, thereby reducing the height of the floor.

When the concrete is filled, the steel is concentrated on the outside of the beam so that the steel surrounds the four sides of the beam and the concrete is filled inside. The upper half-section member 12 disposed outside serves as a compressive material, and the lower plate 111 and side plates 112 and 112 of the lower bar-side member 11 also serve as tension members and shear reinforcement.

In addition, the steel plate is disposed on the outer shell and the concrete is filled inside, the steel sheet causes the effect of restraining the concrete to increase the bending rigidity of the beam, thereby reducing the deflection. Therefore, it can be effectively used for long span of 10m or more.

In addition, the concrete of the beam part is not exposed to the outside air, thereby preventing cracks and neutralization, thereby improving the durability of the structure.

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 the invention as such variations and modifications but only by the claims appended hereto.

11: lower half section member
111: bottom plate
112: side plate
113: base plate
114: angle member
115: rebar
12: upper half section member
121: top plate
121a: hole for concrete pouring
122a, 122b, 122c: opening
122: inclined plate
13: connecting member

Claims (9)

A lower half-section member consisting of a lower plate, two side plates extending upwardly at both ends in the width direction of the lower plate, and a backing plate extending horizontally outwardly from the two side plates, respectively;
An upper half-section member comprising a top plate having a plurality of concrete pouring holes formed therein and two inclined plates extending downward from both ends in the width direction of the top plate, and coupled to an upper portion of the lower half-section member to close the cross section; And
A connecting member provided at each end in the longitudinal direction of the closed cross section formed by coupling the lower half-section member and the upper half-section member,
The connecting member is a 'H' or 'I' shaped cross section having an upper flange, an abdomen and a lower flange, and has a height greater than the height of the closed cross section formed by combining the lower half-section member and the upper half-section member. Closed section steel beams for application and long span reduction combined with long spans inserted so that a certain length is inserted inwardly and a gap is formed between the lower flange and the lower plate at both ends of the closed section formed by combining the section member and the upper half-section member. The method according to claim 1,
Application of a long span formed by combining one or two or more of a lower opening formed at a portion where the inclined plate and the support plate meet, a central opening formed at a portion spaced from the support plate and the upper plate, and an upper opening formed at the portion where the inclined plate and the upper plate meet, and Closed section steel beam for floor height reduction. The method according to claim 1,
Inside the lower half-section member, a plurality of angle members coupled to the lower plate and two side plates at intervals along the longitudinal direction are installed, and a plurality of reinforcing bars are provided on the upper surface of the angle member over the entire length of the beam in the longitudinal direction. Closed section steel beam for long span application and floor height reduction. The method according to claim 1,
The top plate of the upper half-section member is a closed cross-section steel beam for long span application and floor height reduction combined with a plurality of anti-slip rebars in the longitudinal direction. delete The method according to claim 1,
Closed section steel beam for long span application and floor height reduction between the lower flange of connecting member and the lower plate of lower half-section member. A lower half-section member consisting of a lower plate, two side plates extending upwardly at both ends in the width direction of the lower plate, and a backing plate extending horizontally outwardly from the two side plates, respectively;
An upper half-section member comprising a top plate having a plurality of concrete pouring holes formed therein and two inclined plates extending downward from both ends in the width direction of the top plate, and coupled to an upper portion of the lower half-section member to close the cross section; And
A connecting member provided at each end in the longitudinal direction of the closed cross section formed by coupling the lower half-section member and the upper half-section member,
The connecting member is a member having an H-shaped or I-shaped cross section having a height such that the closed cross section formed by the lower half cross-section member and the upper half cross-section member can be coupled between the upper flange and the lower flange. Closed section steel beam for long span application and floor height reduction combined with inverted 'T' shaped member coupled to the lower part. A lower half-section member consisting of a lower plate, two side plates extending upwardly at both ends in the width direction of the lower plate, and a backing plate extending horizontally outwardly from the two side plates, respectively;
An upper half-section member comprising a top plate having a plurality of concrete pouring holes formed therein and two inclined plates extending downward from both ends in the width direction of the top plate, and coupled to an upper portion of the lower half-section member to close the cross section; And
A connecting member provided at each end in the longitudinal direction of the closed cross section formed by coupling the lower half-section member and the upper half-section member,
The connecting member is composed of an upper 'T' shaped member and a lower inverted 'T' shaped member, and has a cross section of an 'H' or 'I' shape as a whole, and the abdomen of the upper 'T' shaped member is formed on the upper plate and the lower plate. A certain length is inserted and the upper plate is coupled to the upper flange, and the lower inverse 'T' shaped member is connected to the lower part of the upper 'T' shaped member to apply long span and closed section steel beam for floor height reduction. Closed section steel beam of Claim 1, 7 or 8;
Deck plate mounted to the base plate of the steel beam;
Slab concrete integrally synthesized on top of the tech plate; And
Concrete-filled composite beam system comprising filled concrete filled inside closed section steel beams.

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